Difference between revisions of "Category:403 Asphaltic Concrete Pavement"

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m (→‎403.1.19 Acceptance of Material (Sec 403.19): Per CM, tamper proof bags will be used for these situations and will bring guidance into compliance with the specs and FHWA direction.)
(→‎403.1.5 Mixture Production Specification Limits (Sec 403.5): updated per RR3956 Clarifiying TSR information for sample records)
 
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|-
 
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|'''Asphalt, Permeability'''
 
|'''Asphalt, Permeability'''
 
|-
 
|-
|[http://library.modot.mo.gov/RDT/reports/Ri07053/or09017.pdf Report 2009]
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|[https://spexternal.modot.mo.gov/sites/cm/CORDT/or10010.pdf Report 2009]
 
|-
 
|-
|'''See also:''' [http://www.modot.gov/services/OR/byDate.htm Innovation Library]
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|'''See also:''' [https://www.modot.org/research-publications Research Publications]
 
|}
 
|}
  
{|style="padding: 0.3em; margin-left:15px; border:1px solid #a9a9a9; text-align:center; font-size: 95%; background:#f5f5f5" width="160px" align="right"  
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{|style="padding: 0.3em; margin-left:15px; border:1px solid #a9a9a9; text-align:center; font-size: 95%; background:#f5f5f5" width="300px" align="right"  
 
|-   
 
|-   
 
|'''Forms'''
 
|'''Forms'''
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|[[Media:403 Form Profilograph Report.doc| Profiloqraph Report]]
 
|[[Media:403 Form Profilograph Report.doc| Profiloqraph Report]]
 
|-
 
|-
|'''Figures'''
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|'''QRGs'''
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|-
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|[[:Category:101 Standard Forms#SuperPave Adjustments|SuperPave Adjustments]]
 
|-
 
|-
|[[Media:403 QAQC Questions and Answers Mar 2011.doc|QA/QC Questions and Answers]]
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|[[media:403 Performance Testing Asphalt QRG.pdf|Performance Testing Sample]]
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|- 
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|'''AC Price Index Adjustments'''
 
|-
 
|-
|[[Media:401 Asphalt Cement Price Index.doc|Asphalt Cement Price Index Example Calculations]]
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|[https://epg.modot.org/forms/CM/403_Guidance_for_Asphalt_Cement_Price_Index_Adjustments.docx Guidance for Asphalt Cement Price Index Adjustments]
 
|-
 
|-
|'''QRG'''
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|'''Related Information'''
 
|-
 
|-
|[[media:SuperPave Adjustments.doc|SuperPave Adjustments]]
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|[https://modotgov.sharepoint.com/sites/cm/FormServerTemplates/104_7_Maintenance.docx Guidance for Administering and Planning Pavement Maintenance Responsibilities during Construction]
 
|}
 
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'''Design Levels''' (Sec 403.1.2)
 
'''Design Levels''' (Sec 403.1.2)
  
At the contractor’s expense, a mix with the same size aggregate and one design level higher can be substituted for the mix required by the contract. Substitutions typically require a change order to pay for the higher quality mix at the price of the lower mix. Care should be taken to assure that the material product codes reflect the mix actually placed on the roadway. The substitutions must be done uniformly and various design levels in the same lift will not be allowed.
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At the contractor’s expense, a mix with the same size aggregate and one design level higher can be substituted for the mix required by the contract at the price of the lower mix. Care should be taken to assure that the material product codes reflect the mix actually placed on the roadway. The substitutions must be done uniformly and various design levels in the same lift will not be allowed.
  
 
===403.1.2 Material (Sec 403.2)===
 
===403.1.2 Material (Sec 403.2)===
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Cellulose or mineral fibers, in accordance with Standard Specification Section 1071.4, must be used as a stabilizer in SMA mixes. Because the aggregate gradation of an SMA mix is gap-graded, fibers are used to increase the surface area of the mix and hold the binder in the mix. The fibers do not absorb the binder. The manufacturer, brand name, and dosage rate will be shown on the JMF. Fibers are proportioned by weight in both batch and drum plants. If an SMA mix is produced in a batch plant, the fibers can be added to the aggregate in the weigh hopper or in the pugmill. This can be done manually or mechanically with a metering device. If the fibers are added in the weigh hopper, aggregate from at least one hot bin must be discharged into the hopper before the fibers are added. If the fibers are added in the pugmill, the fibers must be added after the aggregate and before the binder. In either case, the dry mixing time shall be a minimum of 20 seconds and the wet mixing time shall be a minimum of 35 seconds. The mixing times and/or temperatures should be adjusted if a uniform mix is not produced. If an SMA mix is produced in a drum plant, the fibers can be added to the drum in loose or pelletized form. The fibers shall be uniformly and continuously metered into the mix. The metering system must be interlocked with the blending system. Pelletized fibers are added to the drum through the RAP inlet. Record all fiber shipments in the corresponding APIW. The inspector should verify that the manufacturer and brand name are included on the Pre-Acceptance List (PAL) and that the dosagerate meets the minimum requirements of Standard Specification Section 403.2.5.2. Fibers will be sampled in accordance with the PAL requirements and shipped to the Central Laboratory for testing. More information on the PAL requirements can be found in Standard Specification Section 106.12 and [[:Category:106 Control of Material|Control of Material]].
 
Cellulose or mineral fibers, in accordance with Standard Specification Section 1071.4, must be used as a stabilizer in SMA mixes. Because the aggregate gradation of an SMA mix is gap-graded, fibers are used to increase the surface area of the mix and hold the binder in the mix. The fibers do not absorb the binder. The manufacturer, brand name, and dosage rate will be shown on the JMF. Fibers are proportioned by weight in both batch and drum plants. If an SMA mix is produced in a batch plant, the fibers can be added to the aggregate in the weigh hopper or in the pugmill. This can be done manually or mechanically with a metering device. If the fibers are added in the weigh hopper, aggregate from at least one hot bin must be discharged into the hopper before the fibers are added. If the fibers are added in the pugmill, the fibers must be added after the aggregate and before the binder. In either case, the dry mixing time shall be a minimum of 20 seconds and the wet mixing time shall be a minimum of 35 seconds. The mixing times and/or temperatures should be adjusted if a uniform mix is not produced. If an SMA mix is produced in a drum plant, the fibers can be added to the drum in loose or pelletized form. The fibers shall be uniformly and continuously metered into the mix. The metering system must be interlocked with the blending system. Pelletized fibers are added to the drum through the RAP inlet. Record all fiber shipments in the corresponding APIW. The inspector should verify that the manufacturer and brand name are included on the Pre-Acceptance List (PAL) and that the dosagerate meets the minimum requirements of Standard Specification Section 403.2.5.2. Fibers will be sampled in accordance with the PAL requirements and shipped to the Central Laboratory for testing. More information on the PAL requirements can be found in Standard Specification Section 106.12 and [[:Category:106 Control of Material|Control of Material]].
  
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<div id="Reclaimed Asphalt"></div>
 
'''Reclaimed Asphalt''' (Sec 403.2.6)  
 
'''Reclaimed Asphalt''' (Sec 403.2.6)  
  
Reclaimed asphalt binder is introduced into mixtures through reclaimed asphalt pavement (RAP) or reclaimed asphalt shingles (RAS). RAP may be added in any amount in any mixture, except SMA mixtures. RAS, up to 7% by weight of the aggregate, may be added to mixtures containing PG 64-22. Generally, contractors try to maximize the use of RAP and RAS without changing the PG grade of virgin binder. A maximum of 30% replacement of the effective virgin binder may be used in mixtures without changing the grade of binder. Effective virgin binder is used to account for binder absorbed by the aggregates and is not available for blending with the reclaimed binder. Mixtures containing RAP may be used with more than 30% binder replacement provided testing according to AASHTO M 323 is included with the job mix formula that ensures the combined binder meets the grade specified in the contract. Mixtures containing RAS are limited to 40% binder replacement. Between 30% and 40% binder replacement, RAS mixtures may contain PG 52-28 or PG 58-28. Reclaimed binder contribution may be [[media:403.1.2 Contribution of Binder from Recycled Materials 2012.xls|calculated with a spreadsheet]] generated by Construction and Materials.
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Both reclaimed asphalt pavement (RAP) and reclaimed asphalt shingles (RAS) are allowed in some mix types by specification but not all mix types. When RAP or RAS are allowed, the contractor chooses when and how much recycled material to utilize within the specification limits. Depending on how much RAP or RAS the contractor chooses to use, there may be additional requirements placed on the virgin binder by the specifications. Effective virgin binder is used to account for binder absorbed by the aggregates and is not available for blending with the reclaimed binder.
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[[media:403.1.2 Contribution of Binder from Recycled Materials 2016.xls|Reclaimed binder contribution is calculated]] using a spreadsheet provided on MoDOT’s website. When a mix design approval is based off of a blend chart binder grade or extracted binder grade, substitution of a different virgin binder may require additional testing to prove the specification requirements are met.
  
 
===403.1.3 Composition of Mixtures (Sec 403.3)===  
 
===403.1.3 Composition of Mixtures (Sec 403.3)===  
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'''Approval''' (Sec 403.4.3)
 
'''Approval''' (Sec 403.4.3)
  
No mix shall be produced or placed by the contractor or accepted for use by an inspector without an approved JMF. This includes mix transfers. The Materials Field Office (MFO) will
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No mix shall be produced or placed by the contractor or accepted for use by an inspector without an approved JMF. This includes mix transfers. The Materials Field Office (MFO) will give written approval. District Materials may approve mix transfers if the mix quantity per project is 250 tons or less provided the mix type and contract binder grade match what’s listed on the plan sheets or change order. In some extreme cases, approval may be verbal with written approval to follow. Occasionally, contractors may elect to place mix while the request is still pending. In this situation, contractors are proceeding at their own risk and should be so advised by an order record.
give written approval. In some extreme cases, approval may be verbal with written approval to
 
follow. Occasionally, a contractor may elect to place mix while the request is still pending. In
 
this situation, the contractor is proceeding at his own risk and should be so advised by an order record.
 
  
 
'''Job Mix Formula Modifications''' (Sec 403.4.4)
 
'''Job Mix Formula Modifications''' (Sec 403.4.4)
  
A new JMF will be required if a material source is changed or if unsatisfactory results are
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A new JMF will be required if a material source is changed or if unsatisfactory results are obtained. The exception for the new JMF requirement will be when a binder source change has been made to a supplier, previously provided by the contractor in the original JMF, for which an alternate JMF number has already been created. Unsatisfactory results may include a mix that fails to meet specifications (binder content, volumetrics, and/or density) or if the visual appearance of the mix is unacceptable. If a new JMF is required, the procedures outlined in Standard Specification Section 403.11 should be followed.
obtained. Unsatisfactory results may include a mix that fails to meet specifications (binder content, volumetrics, and/or density) or if the visual appearance of the mix is unacceptable. If a new JMF is required, the procedures outlined in Standard Specification Section 403.11 should be followed.
 
  
 
===403.1.5 Mixture Production Specification Limits (Sec 403.5)===
 
===403.1.5 Mixture Production Specification Limits (Sec 403.5)===
  
Intentional deviations from the JMF will not be permitted. The plant shall be operated in such a manner that the mix is produced as shown on the JMF. The specification tolerances are developed in an attempt to keep the mix as consistent as possible and to allow for some variation during production. However, these tolerances are not production limits. For example, if the target binder content is 5.0%, the binder content of the mix can range from 4.7% to 5.3% when the tolerances are applied. The contractor will not be allowed to produce the mix at 4.7% to save money.  
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Intentional deviations from the JMF will not be permitted, except under the conditions set forth in Sec 403.11. The plant shall be operated in such a manner that the mix is produced as shown on the JMF. The specification tolerances are developed in an attempt to keep the mix as consistent as possible and to allow for some variation during production. However, these tolerances are not production limits. For example, if the target binder content is 5.0%, the binder content of the mix can range from 4.7% to 5.3% when the tolerances are applied. The contractor will not be allowed to produce the mix at 4.7% to save money.  
  
Both QC and QA will use the following procedures to determine volumetrics of the mix and compliance with Standard Specification Sections 403.5.3 through 403.5.5. These procedures are discussed in greater detail in the Levels 1 and 2 Bituminous Training.  
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Operating out of the specifications may reduce the contractor's pay and/or the pavement service life. When QC tests, either random or informational, are out of specification tolerances, the contractor should adjust the production to bring the mix back in. When QA tests are out of specification tolerances, the contractor should be notified immediately. The contractor is responsible for deciding when adjustments are made to control the mix. Some test properties may be allowed to deviate beyond specification limits occasionally, provided that adjustments are made and the following tests show that production is back within limits.
  
A loose mix sample consisting of roughly 100 lbs. will be taken from the roadway behind the paver, in accordance with AASHTO T168, at the required frequency. The sample will be thoroughly mixed and quartered in accordance with AASHTO R47, or with an approved splitting/quartering device. Two opposite quarters will be retained for testing during the dispute resolution process, if necessary. The remaining two quarters will be mixed together and quartered again.  
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Production may be required to cease if the random QC or QA test results are either out of specifications far enough to indicate that the mix may be subject to failure or beyond the specification removal limits. Production should cease until verification that the problem has been corrected. An order record should be written, on the same day or the next day if paving occurs at night, describing the deficiency and the location and amount of mix affected. The contractor may elect to continue production in order to run more tests. If so, the order record should state that any mix produced after the order record was issued is at the contractor’s risk. Final disposition of the mix can then be made based on all tests and observations and may consist of acceptance at a reduced price or removal and replacement of unacceptable material.
  
The required weight of mix, as listed on the JMF, will be taken from one quarter and used to compact a specimen in accordance with AASHTO T312. The mix will be compacted to N<sub>des</sub> gyrations while the mix temperature is within the molding range listed on the JMF. Using the
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Both QC and QA will use the following procedures to determine volumetrics of the mix and compliance with Standard Specification Sections 403.5.3 through 403.5.5. These procedures are discussed in greater detail in the Levels 1 and 2 Bituminous Training.  
opposite quarter, follow the same procedure for the second specimen. The G<sub>mb</sub> of each specimen will be determined and the average will be used to calculate the air voids V<sub>a</sub> and the voids in the mineral aggregate (VMA). By specification, a minimum of two compacted specimens must be used to calculate these properties.
 
 
 
A third quarter will be used to determine the G<sub>mm</sub> of the mix in accordance with AASHTO T209. The minimum sample size for each type of mix can be found in the training manual. This property is used to calculate the V<sub>a</sub> and density. The volume of the sample, which is needed in the calculation, can be determined by either the weigh-in-air method or the weigh-in-water method. The weigh-in-air method consists of weighing the sample and container (with the lid) completely filled with water in air. The weigh-in-water method consists of weighing the sample and container (without the lid) completely submerged in water.
 
 
 
The remaining mix should be mixed together and quartered again. To determine the
 
binder content using the nuclear gauge, enough mix should be taken from opposite quarters. The
 
required weight of mix is listed on the JMF. A moisture content sample should be taken from the
 
same quarters. To determine the binder content using the binder ignition oven, enough mix
 
should be taken from one quarter. The minimum sample size for each type of mix can be found in
 
the training manual. A moisture content sample should be taken from the same quarter. Sometimes
 
the ignition oven may not shut itself off. The oven may be shut off manually as long as 3
 
consecutive readings show less than 0.01% loss. The sample should be examined to assure that a
 
complete burn has been achieved. This will be considered a valid test.
 
  
In situations where a retained sample must be tested, the following procedure should be used to reheat the sample. Heat the sample in an oven until the mix is workable. Take the mix out of the sample container (box, bucket, etc.) and spread it in a large pan or several smaller pans. Using this procedure, the mix will reach the molding temperature much quicker than it would if it were left in a mass in the sample container. Also, less aging of the mix occurs since the mix is in the oven for a shorter period of time. Once the mix has reached an acceptable temperature, the sample must be quartered using the procedures discussed above. The entire suite of tests must be performed on a retained sample.
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In situations where a retained sample must be tested, the following procedure should be used to reheat the sample. Heat the sample in an oven until the mix is workable. Take the mix out of the sample container (box, bucket, etc.) and spread it in a large pan or several smaller pans. Using this procedure, the mix will reach the molding temperature much quicker than it would if it were left in a mass in the sample container. Also, less aging of the mix occurs since the mix is in the oven for a shorter period of time. Once the mix has reached an acceptable temperature, quarter split the mix.  The split portions to be used for making gyratory specimens shall then be heated to the compaction temperature. The entire suite of tests must be performed on a retained sample.
  
 
'''Gradation''' (Sec 403.5.1)
 
'''Gradation''' (Sec 403.5.1)
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mix, as determined by sampling and testing, shall be within ±0.3% of the target listed on the JMF.
 
mix, as determined by sampling and testing, shall be within ±0.3% of the target listed on the JMF.
  
<div id="Voids in the Mineral Aggregate (VMA) (Sec 403.5.4)">
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<div id="Voids in the Mineral Aggregate (VMA) (Sec 403.5.4)"></div>
 
'''Voids in the Mineral Aggregate (VMA)''' (Sec 403.5.4)
 
'''Voids in the Mineral Aggregate (VMA)''' (Sec 403.5.4)
  
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minimums and should be increased as necessary. The V<sub>a</sub> for all mixes shall be 4.0 ±1.0%.
 
minimums and should be increased as necessary. The V<sub>a</sub> for all mixes shall be 4.0 ±1.0%.
  
<div id="Tensile Strength Ratio (TSR) (Sec 403.5.6)">
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<div id="Tensile Strength Ratio (TSR) (Sec 403.5.6)"></div>
 
'''Tensile Strength Ratio (TSR)''' (Sec 403.5.6)
 
'''Tensile Strength Ratio (TSR)''' (Sec 403.5.6)
  
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stripping.  
 
stripping.  
  
During production, loose mix samples will be taken and quartered as described in [[#403.1.5 Mixture Production Specification Limits (Sec 403.5)|Mixture Production Specification Limits]]. TSR samples do not need to be located by random numbers. However, they should be taken whenever it is convenient to production, such as during a big gap between QC volumetric tests. QC has the option of taking the loose mix samples from any point in the production process. The recommended locations are from the roadway behind the paver or from the plant. The QA sample(s) should be taken from the same point as the QC sample(s). If QC takes their sample from the plant, QA should take their sample from the plant also. This does not mean that QA should be taking their samples at the same time as QC. Two opposite quarters will be retained and the remaining two quarters will be mixed together and tested in accordance with AASHTO T283.
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During production, loose mix samples will be taken and quartered as described in [[#403.1.5 Mixture Production Specification Limits (Sec 403.5)|Mixture Production Specification Limits]]. TSR samples need to be taken from random locations. However, they should be taken whenever it is convenient to production, such as during a big gap between QC volumetric tests. By specification, sampling locations are from the roadway behind the paver, however, should the MoDOT inspector deem this an unsafe or impractical location, the sample may be taken from the plant. The QA sample(s) should be taken from the same point as the QC sample(s). If QC takes their sample from the plant, QA should take their sample from the plant also. This does not mean that QA should be taking their samples at the same time as QC. Two opposite quarters will be retained and the remaining two quarters will be mixed together and tested in accordance with AASHTO T283.
  
 
QC should obtain enough mix to retain a sample. QC will sample and test each mix at a minimum of once every 10,000 tons, or fraction thereof. QA will independently sample and test each mix at a minimum of once every 50,000 tons. The TSR sampling requirements are best described with an example. Suppose that 112,960 tons of SP190 are to be placed on a project. By specification, QC is required to take twelve samples and QA is required to take three samples. There are two possible scenarios for sampling this mix. QC may take eleven samples representing 10,000 tons each and a twelfth sample that represents the remaining 2,960 tons. Or QC may take ten samples that represent 10,000 tons each and two samples that represent the remaining 12,960 tons (6,480 tons each). Either scenario is acceptable. Likewise, QA may take two samples representing 50,000 tons each and a third sample that represents the remaining 12,960 tons. Or QA may take one sample that represents 50,000 tons and two samples that represent the remaining 62,960 tons (31,480 tons each). The contract quantity may be used to approximate sample 1 locations.
 
QC should obtain enough mix to retain a sample. QC will sample and test each mix at a minimum of once every 10,000 tons, or fraction thereof. QA will independently sample and test each mix at a minimum of once every 50,000 tons. The TSR sampling requirements are best described with an example. Suppose that 112,960 tons of SP190 are to be placed on a project. By specification, QC is required to take twelve samples and QA is required to take three samples. There are two possible scenarios for sampling this mix. QC may take eleven samples representing 10,000 tons each and a twelfth sample that represents the remaining 2,960 tons. Or QC may take ten samples that represent 10,000 tons each and two samples that represent the remaining 12,960 tons (6,480 tons each). Either scenario is acceptable. Likewise, QA may take two samples representing 50,000 tons each and a third sample that represents the remaining 12,960 tons. Or QA may take one sample that represents 50,000 tons and two samples that represent the remaining 62,960 tons (31,480 tons each). The contract quantity may be used to approximate sample 1 locations.
  
QA will send approximately 125 lbs. of loose mix (approximately 4 – 13” x 13” x 4.5” boxes) to the Central Laboratory for testing. Each box must be labeled with the SiteManager ID Mix Type VMA Limits (percent) number and the mix number. A SiteManager record must be created for each sample, which must include all required information, the mix number, lot, sublot, and the represented tonnage. The represented tonnage is explained in the example in the preceding paragraph.  
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MoDOT should collect at least 250 pounds of asphalt mix for the QA sample, 125 pounds is retained by the RE and the other 125 pounds is sent to the Central Laboratory (typically) in 4 – 13” x 13” x 4.5” boxes for QA testing. Each box must be labeled on one side with the AASHTOWARE Project (AWP) ID, Mix Type, VMA Limits (percent) number and the mix number. An AWP record must be created for each sample, which must include all required information, the mix number, sample date, and the represented tonnage. The represented tonnage is explained in the example in the preceding paragraph. It is recommended to include the lot and sublot to the AWP record as additional information.
  
Additional information that may be included in the SiteManager record is the G<sub>mm</sub> from the sublot that the sample was taken in (QC or QA) and the specimen weight that QC has been using. The specimen weight may be different from that shown on the JMF because of bin percent changes, etc. This information is helpful because it results in less trial-and-error for the Central Laboratory.
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Additional information that may be included in the AWP record is the G<sub>mm</sub> from the sublot that the sample was taken in (QC or QA) and the specimen weight that QC has been using. The specimen weight may be different from that shown on the JMF because of bin percent changes, etc. This information is helpful because it results in less trial-and-error for the Central Laboratory.
  
 
In the laboratory, a minimum of six specimens are compacted to a height of approximately 95 mm. The air voids of the specimens are calculated. For all mixes other than SMA, the air voids must be within 7.0 ±0.5%. For SMA mixes, the air voids must be within 6.0 ±0.5%. Half of these specimens are saturated, frozen, and thawed. These are the conditioned specimens. The degree of saturation of the conditioned specimens is also calculated. The remaining specimens are unconditioned. Then, the indirect-tensile strength of all of the specimens is determined. Therefore, the TSR is the ratio of the average tensile strength of the conditioned specimens to the average tensile strength of the unconditioned specimens.
 
In the laboratory, a minimum of six specimens are compacted to a height of approximately 95 mm. The air voids of the specimens are calculated. For all mixes other than SMA, the air voids must be within 7.0 ±0.5%. For SMA mixes, the air voids must be within 6.0 ±0.5%. Half of these specimens are saturated, frozen, and thawed. These are the conditioned specimens. The degree of saturation of the conditioned specimens is also calculated. The remaining specimens are unconditioned. Then, the indirect-tensile strength of all of the specimens is determined. Therefore, the TSR is the ratio of the average tensile strength of the conditioned specimens to the average tensile strength of the unconditioned specimens.
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A favorable comparison will be obtained if the QC and QA test results are within 10% of each other. The contractor’s pay will be adjusted in accordance with Standard Specification Section 403.23.5 based on the QC test results. For example, if the QC TSR is 95% and the QA TSR is 93%, a favorable comparison has been obtained and the contractor will receive a 3% bonus. However, if the difference is greater than 10%, the field office should be consulted. The field office will evaluate the air voids and saturation levels.  The raw data should be collected from QC and forwarded to the field office for comparison in order to determine whether it will be necessary to proceed with 3<sup>rd</sup> party testing.  QC and QA retained samples should be kept for an extended period of time so that they may be used during dispute resolution, if necessary.  
 
A favorable comparison will be obtained if the QC and QA test results are within 10% of each other. The contractor’s pay will be adjusted in accordance with Standard Specification Section 403.23.5 based on the QC test results. For example, if the QC TSR is 95% and the QA TSR is 93%, a favorable comparison has been obtained and the contractor will receive a 3% bonus. However, if the difference is greater than 10%, the field office should be consulted. The field office will evaluate the air voids and saturation levels.  The raw data should be collected from QC and forwarded to the field office for comparison in order to determine whether it will be necessary to proceed with 3<sup>rd</sup> party testing.  QC and QA retained samples should be kept for an extended period of time so that they may be used during dispute resolution, if necessary.  
  
The QC data should be reported in SiteManager (Test - SAA402AB).  Contractors may report their own test results using the TSR Contractor Reporting Excel to Oracle Spreadsheet available on the MoDOT [http://www.modot.org/business/contractor_resources/Quality_Management/ Quality Management] website.  Furthermore, this information is quarried regularly and, provided that a favorable comparison is reached, used to signal the appropriate time for disposal of the remaining TSR sample at the Central Lab.  
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The QC data should be reported in AWP (Test - SAA402AB).  Contractors may report their own test results using the TSR Contractor Reporting Excel to Oracle Spreadsheet available on the MoDOT [http://www.modot.org/business/contractor_resources/Quality_Management/ Quality Management] website.  Furthermore, this information is quarried regularly and, provided that a favorable comparison is reached, used to signal the appropriate time for disposal of the remaining TSR sample at the Central Lab.  
 
   
 
   
 
<div id="Aggregate Properties"></div>
 
<div id="Aggregate Properties"></div>
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| Clay Content|| 5% below the minimum
 
| Clay Content|| 5% below the minimum
 
|-
 
|-
|Thin, Elongated Particles|| 2% below the minimum
+
|Thin, Elongated Particles|| 2% above the maximum
 
|}
 
|}
  
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'''Substitutions''' (Sec 403.10.2)
 
'''Substitutions''' (Sec 403.10.2)
  
The intent of this specification is that there be no additional cost to MoDOT as a result of the allowed substitution. Payment should be made for the mixture originally set up in the contract. Material codes for the substitute mixture should be entered in SiteManager on the line for which payment is being made. For example: Assume that the contractor wishes to use SP125 in lieu of the SP190 that is set up in the plans and that the SP125 has a higher contract unit price. Payment for the substitute mix should be paid as SP190. Material codes for SP125 should be added to the line for SP190 so that material quantities can be tracked and documented.
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The intent of this specification is that there be no additional cost to MoDOT as a result of the allowed substitution. Payment should be made for the mixture originally set up in the contract. Material codes for the substitute mixture should be entered in AWP on the line for which payment is being made. For example: Assume that the contractor wishes to use SP125 in lieu of the SP190 that is set up in the plans and that the SP125 has a higher contract unit price. Payment for the substitute mix should be paid as SP190. Material codes for SP125 should be added to the line for SP190 so that material quantities can be tracked and documented.
  
 
===403.1.11 Field Adjustments of Job Mix Formulas (Sec 403.11)===
 
===403.1.11 Field Adjustments of Job Mix Formulas (Sec 403.11)===
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When test results indicate that the mixture does not meet the specification requirements, the contractor may adjust the JMF in the field.  The total binder content may be adjusted by a maximum of 0.3% from the original JMF.  Virgin aggregate fractions may be adjusted as necessary except that they may not be eliminated entirely unless they are 5% or less of the original JMF.  Consult the Field Office before eliminating virgin aggregate fractions greater than 5%.  The addition of any new fraction will require a new mix design.  The RAS fraction may be adjusted by a maximum of 3% from the original JMF.  The RAP fraction may be adjusted by a maximum of 15% from the original JMF.  
 
When test results indicate that the mixture does not meet the specification requirements, the contractor may adjust the JMF in the field.  The total binder content may be adjusted by a maximum of 0.3% from the original JMF.  Virgin aggregate fractions may be adjusted as necessary except that they may not be eliminated entirely unless they are 5% or less of the original JMF.  Consult the Field Office before eliminating virgin aggregate fractions greater than 5%.  The addition of any new fraction will require a new mix design.  The RAS fraction may be adjusted by a maximum of 3% from the original JMF.  The RAP fraction may be adjusted by a maximum of 15% from the original JMF.  
  
Any time that adjustments are made to the plant percentages, including the hot bin percentages, the inspector and RE must be notified immediately. The resulting combined aggregate gradation of the adjusted mix must be within the master range for that particular type of mix (see Standard Specification Section 403.3.1). During production of the adjusted mix, the combined aggregate gradation must be within the limits of Standard Specification Section 403.5.1.1 or 403.5.1.2, whichever is applicable. If the cold feed settings have been adjusted, the composition of the mix has been changed. Therefore, the new bulk specific gravity of the combined aggregate (G<sub>sb</sub>) must be calculated using the adjusted cold feed percentages so that the VMA can be accurately calculated during production. If an adjustment from the job mix is made, the contractor should be required to recalculate the porphyry/Non-carbonate percentage to assure that is still meets the contract requirements. A spreadsheet has been developed to assist in checking the contractor’s calculation. The spreadsheet can be found in the same folder on the V drive as the SuperPave spreadsheet. If the percentage of RAS or RAP is increased from the original JMF the percent virgin effective binder replacement (P<sub>bv</sub>) should be recalculated to assure compliance with section 403.2.5 of the Standard Specifications.  The P<sub>bv</sub> should also be recalculated when the percent of binder in the RAP changes as determined by Section 403.19.3.
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Any time that adjustments are made to the plant percentages, including the hot bin percentages, the inspector and RE must be notified immediately. The resulting combined aggregate gradation of the adjusted mix must be within the master range for that particular type of mix (see Standard Specification Section 403.3.1). During production of the adjusted mix, the combined aggregate gradation must be within the limits of Standard Specification Section 403.5.1.1 or 403.5.1.2, whichever is applicable. If the cold feed settings have been adjusted, the composition of the mix has been changed. Therefore, the new bulk specific gravity of the combined aggregate (G<sub>sb</sub>) must be calculated using the adjusted cold feed percentages so that the VMA can be accurately calculated during production. If an adjustment from the job mix is made, the contractor should be required to recalculate the porphyry/Non-carbonate percentage to assure that is still meets the contract requirements. The [[media:403.1.11 Durable Aggregate Calculation.xlsx|Durable Aggregate Calculation spreadsheet]] has been developed to assist in checking the contractor’s calculation. If the percentage of RAS or RAP is increased from the original JMF the percent virgin effective binder replacement (P<sub>bv</sub>) should be recalculated to assure compliance with section 403.2.5 of the Standard Specifications.  The P<sub>bv</sub> should also be recalculated when the percent of binder in the RAP changes as determined by Section 403.19.3.
  
 
'''Field Mix Redesign''' (Sec 403.11.1)
 
'''Field Mix Redesign''' (Sec 403.11.1)
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'''Joint Composition''' (Sec 403.16.1)
 
'''Joint Composition''' (Sec 403.16.1)
  
The density requirements in this section apply to the traveled way pavement within 6 in. of the longitudinal joint, including the pavement on the traveled way side of the shoulder joint. All
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Unconfined joint density should be measured on the first pass in the 6 inches adjacent to the vertical edge (if the contractor is taking 6-inch density cores the location should be adjusted as necessary to avoid the vertical face). After the second paver pass closes the unconfined joint, the entire width of the lane may be used for random density testing, including the entire wedge portion of a notched wedge section.  
mixes, except for SMA, shall have a minimum unconfined joint density of 90.0%. SMA mixes shall have a minimum unconfined joint density of 92.0%. Confined joint densities will be evaluated with the remainder of the mat and must meet the density requirements of Standard Specification
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All mixes, except for SMA, shall have a minimum unconfined joint density of 90.0%. SMA mixes shall have a minimum unconfined joint density of 92.0%. Confined joint densities will be evaluated with the remainder of the mat and must meet the density requirements of Standard Specification
 
Section 403.5.2.
 
Section 403.5.2.
  
 
===403.1.17 Quality Control (Sec 403.17)===
 
===403.1.17 Quality Control (Sec 403.17)===
  
'''Quality Control Operations''' (Sec 403.17.1)
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Under QC/QA, the contractor performs quality control (QC) testing. The contractor is paid based on the results of the randomly located QC tests for Superpave mixes. Beyond random QC tests, quality control by the contractor consists of constantly monitoring materials integrity, mix production and laydown operations to ensure overall acceptability.
 
 
See [[460.1 Quality Control/Quality Assurance|Quality Control/Quality Assurance]].
 
  
 
<div id="Asphalt Test Results (Sec 403.17.1.1)">
 
<div id="Asphalt Test Results (Sec 403.17.1.1)">
 
'''Asphalt Test Results''' (Sec 403.17.1.1)
 
'''Asphalt Test Results''' (Sec 403.17.1.1)
  
A copy of all QC test results shall be furnished to the QA inspector no later than the beginning of the day after testing has been performed. All raw data and printouts must be included with the testing records. Raw data consists of all weights, measurements,etc. used to arrive at the final test results. Printouts include the gyration/height data from the gyratory compactor and the asphalt content ticket from the binder ignition oven or nuclear gauge. The testing records must be available to the QA inspector at all times. A self-test is a test that QC may perform between random testing to determine whether or not the mix is within specifications. Self-testing is not required and may be performed at any time and at any frequency. Generally, self-testing will be performed early in the production period. The self-test may not be completed in full. For example, QC may only compact the gyratory specimens. Doing so will yield specimen heights and the contractor may or may not make production adjustments based on these heights. Self-test samples must be clearly marked as such if they are tested and stored in the field laboratory. Self-test data may be used to determine removal limits if it is adequately documented. It should not be used for QLA under any circumstances. To be considered adequately documented the following criteria should be met:
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A copy of all random QC test results shall be furnished to the QA inspector no later than the beginning of the day after testing has been performed. All raw data and printouts must be included with the testing records. Raw data consists of all weights, measurements, etc. used to arrive at the final test results. Printouts include the gyration/height data from the gyratory compactor and the asphalt content ticket from the binder ignition oven or nuclear gauge. The QC testing records must be made available to the QA inspector at all times.
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It is QC’s responsibility to take appropriate action if unsatisfactory mix is being produced. This may include making adjustments to the plant to bring the mix back into specification, sampling the mix from the roadway and performing informational testing, removing mix from the roadway, etc.
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'''Informational Tests'''
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An informational test is a test that QC may perform between random testing to determine whether or not the mix is within specifications. Informational testing is not required and may be performed at any time and at any frequency. Generally, informational testing will be performed early in the production period. The informational test may not be completed in full. For example, QC may only compact the gyratory specimens. Doing so will yield specimen heights and the contractor may or may not make production adjustments based on these heights. Informational test samples must be clearly marked as such if they are tested and stored in the field laboratory.
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QC is not required to provide the QA inspector with informational test results, since informational tests cannot be used in the QC process to determine pay factors, The timing of random number locations being given to the contractor, typically 100 to 150 tons in advance, is meant to protect the integrity of the statistical sampling process.  QA always has the option of taking its own informational samples.
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Informational test data may be used to determine asphalt removal limits if it is adequately documented. It should not be used for QLA under any circumstances. To be considered adequately documented the following criteria should be met:
  
 
*The gyratory pucks should be clearly identified and labeled and made available for verification.
 
*The gyratory pucks should be clearly identified and labeled and made available for verification.
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*The printout from the AC test should be available.
 
*The printout from the AC test should be available.
  
If the preceding conditions are met and the gyratory specimens are used to troubleshoot the placement, the specimens can then be weighed and bulked to determine the volumetric properties. Data from self-tests is approximate. Its only legitimate use to the QA inspector is to help determine the point on the roadway where the mixture transitioned either above or below the removal limits. We don’t want to remove acceptable mix or leave unacceptable mix in place.
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If the preceding conditions are met and the gyratory specimens are used to troubleshoot the placement, the specimens can then be weighed and bulked to determine the volumetric properties. Data from informational tests is approximate. Its only legitimate use to the QA inspector is to help determine the point on the roadway where the mixture transitioned either above or below the removal limits. We don’t want to remove acceptable mix or leave unacceptable mix in place.
  
See the Figure [[Media:403 Appropriate Use of Self Tests.pdf|Appropriate Use of Self Tests]].
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'''Removal Limits'''
  
It is QC’s responsibility to take appropriate action if unsatisfactory mix is being produced.
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As an example of how informational tests may be used to designate removal limits of failing QC samples, the following situation is provided. The random QC sample shown in the diagram below fell late in sublot ‘a’ and test results indicated that voids were below the limits for removal. By specification sublot ‘a’ should be removed. By the time the test results were available and corrective action was taken, the contractor had crossed into sublot ‘b’. Assuming that mix properties were acceptable at the beginning of sublot ‘a’, the actual limits of unacceptable material are indicated by the dashed lines.
This may include making adjustments to the plant to bring the mix back into specification, sampling the mix from the roadway and performing complete testing, removing mix from the roadway, etc. QC is not required to provide the QA inspector with self-test results. Self-test results will never be used to determine pay factors. However, if the self-test is well documented, the results may be used to determine removal limits, if necessary. A self-test is considered well documented if the gyratory specimen(s), gyration/height printout, and asphalt content ticket are available for QA’s review. The compacted specimens should be clearly marked as self-test specimens and may be tested if necessary.
 
  
'''Profilograph Test Results''' (Sec 403.17.1.2)
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Adhering strictly to the specification, it is likely that acceptable material early in sublot ‘a’ will be removed, and it is also likely that unacceptable material early in sublot ‘b’ will be left in place. An adequately documented informational test may be used to zero in on the transitions out of, and back into, acceptable mix. It doesn’t matter that the data is approximate, only that it is above the limit for removal.
  
Example profilograph reports are shown for a [[Media:403_Figure_Example_Profillograph_Report_QA.pdf|quality assurance report]] and [[Media:403 Figure Example Profilograph Report Profile Measurement .pdf|profile measurement report]].
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Random tests within removal limits are to be replaced by an equal number of random QC test locations, regardless of tonnage. For example, if 750 tons replace an area covered by two random tests, the new tests would be randomly chosen in each 375 ton portion of the replaced mixture.
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The resident engineer has the option to determine removal limits based on puck height, provided that the informational test data is consistent with previous production.
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[[image:403_removal_limits.png|950px|center|thumb|<center>]]
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When the random QC density core is below or above the removal limits, additional cores may be cut using the following procedure to determine the area of removal.  Locations 250’ parallel to the centerline, ahead and back of the failing QC location, will be determined by the engineer.  Cores will be cut in these locations and tested.  If both sets of cores are not below or above the removal limits, the 500’ section will be removed and replaced with acceptable material and a new random QC core will be cut with-in the new pavement.  If either set of the cores are below or above the removal limits, the whole sublot or the area in which the density core represents is subject to removal.
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Any sublot of material with air voids in the compacted specimens less than 2.5 percent shall be evaluated with Hamburg testing and removed and replaced with acceptable material by the contractor if the rut depth is greater than 14.0 mm.
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 +
<div id="level of service (LOS)"></div>
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'''Inertial Profiler Test Results''' (Sec 610)
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Surface of the pavement should be thoroughly tested with an inertial profiler or straightedge as required by [http://www.modot.org/business/standards_and_specs/SpecbookEPG.pdf#page=9 Sec 610]. The procedures for testing with an inertial profiler and analyzing the results with the ProVAL software program are set forth in [[106.3.2.59 TM-59, Determination of the International Roughness Index|EPG 106.3.2.59 TM-59, Determination of the International Roughness Index]].
  
 
'''Bituminous Quality Control Plan''' (Sec 403.17.2)
 
'''Bituminous Quality Control Plan''' (Sec 403.17.2)
  
See [[460.1 Quality Control/Quality Assurance|Quality Control/Quality Assurance]].
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The contractor documents the QC method with a quality control plan (QC Plan*).  The QC plan for Superpave mixes shall include the contact information of the contractor’s QC representative, lot and sublot sizes and how they will be designated, the test method for determining asphalt binder content, the number of cores to be cut for density determination, and the independent third party for dispute resolution.  The QC plan is approved by MoDOT Construction and Materials  and used as a contract document during mix production.  Contractor technicians who perform materials testing shall be certified through the MoDOT Technician Certification Program (TCP).
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*Note*: A QC Plan is not required for bituminous base (BB) and pavement (BP) mixes.
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Up to 3 cores are allowed at each random location, but only if spelled out in the QC plan.  In the drawing below, the cylinder represents the station and offset of the random location. Best management practice is for QA to mark that location on the pavement. The first density core should have that marking on it. Any additional cores should be taken along a straight line, parallel to the centerline, within 1 foot either side of the random location.
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[[image:403_2foot.PNG|350px|center|thumb|<center>]]
  
 
'''Plant Calibration''' (Sec 403.17.2.2)
 
'''Plant Calibration''' (Sec 403.17.2.2)
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'''Retained Samples''' (Sec 403.17.2.3)
 
'''Retained Samples''' (Sec 403.17.2.3)
  
QC must retain the portion of each sample that is not tested after the sample has been reduced to testing size. This includes gradation, consensus, TSR, and volumetrics samples. The retained samples must be clearly identified in accordance with Standard Specification Section 403.17.2.3 and stored in the field laboratory for a minimum of 7 days. Also, all cores must be retained for a minimum of 7 days.
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QC must retain the portion of each sample that is not tested after the sample has been reduced to testing size. This includes gradation, consensus, TSR, and volumetrics samples. The retained samples must be clearly identified in accordance with Standard Specification Section 403.17.2.3 and stored in the field laboratory for a minimum of 7 days. Also, all cores must be retained for a minimum of 7 days. Notwithstanding the 7 day minimum, retained samples should not be discarded until all comparison issues with the lot are resolved. If space at the field lab is an issue, the sample should be stored at the project office.
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There is no legitimate reason for unidentified samples to be in the field laboratory. The QA inspector should insist that all test specimens in the field laboratory be marked as soon as they are cool enough. The identifying mark should be permanent, unique, and indicate what the sample is.
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When running a QC split sample, the comparisons should be within the tolerances shown in the following table:
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{| border="1" class="wikitable" style="margin: 1em auto 1em auto"
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|-
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!style="background:#BEBEBE"|Loose Mix Property||style="background:#BEBEBE"|Tolerance
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|-
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|align="center"| G<sub>mb</sub> ||align="center"| 0.010
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|-
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|align="center"|G<sub>mm</sub>||align="center"| 0.010
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|-
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|align="center"|AC %||align="center"| 0.1%
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|}
  
 
'''Gradation Sample''' (Sec 403.17.2.3.1)
 
'''Gradation Sample''' (Sec 403.17.2.3.1)
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'''Loose Mix Sample''' (Sec 403.17.2.3.2)
 
'''Loose Mix Sample''' (Sec 403.17.2.3.2)
  
A companion sample for all loose mix samples shall be taken and retained. However, the contractor is encouraged to sample a large amount of mix from the roadway, thoroughly blend the mix together, and then reduce the sample down to the necessary testing size. The portion that is not tested will be retained for possible use in the dispute resolution process. This is the preferred method because both halves should yield similar results.
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A loose mix sample consisting of roughly 100 lbs. will be taken from the roadway behind the paver, in accordance with AASHTO T168, at the required frequency. The sample will be thoroughly mixed and quartered in accordance with AASHTO R47, or with an approved splitting/quartering device. Two opposite quarters will be retained for testing during the dispute resolution process, if necessary. The remaining two quarters will be mixed together and quartered again.
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The required weight of mix, as listed on the JMF, will be taken from one quarter and used to compact a specimen in accordance with AASHTO T312. The mix will be compacted to Ndes gyrations while the mix temperature is within the molding range listed on the JMF. Using the opposite quarter, follow the same procedure for the second specimen. The Gmb of each specimen will be determined and the average will be used to calculate the air voids Va and the voids in the mineral aggregate (VMA). By specification, a minimum of two compacted specimens must be used to calculate these properties.
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A third quarter will be used to determine the Gmm of the mix in accordance with AASHTO T209. The minimum sample size for each type of mix can be found in the training manual. This property is used to calculate the Va and density. The volume of the sample, which is needed in the calculation, can be determined by either the weigh-in-air method or the weigh-in-water method. The weigh-in-air method consists of weighing the sample and container (with the lid) completely filled with water in air. The weigh-in-water method consists of weighing the sample and container (without the lid) completely submerged in water.
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The remaining mix should be mixed together and quartered again. To determine the binder content using the nuclear gauge, enough mix should be taken from opposite quarters. The required weight of mix is listed on the JMF. A moisture content sample should be taken from the same quarters. To determine the binder content using the binder ignition oven, enough mix should be taken from one quarter. The minimum sample size for each type of mix can be found in the training manual. A moisture content sample should be taken from the same quarter. Sometimes the ignition oven may not shut itself off. The oven may be shut off manually as long as 3 consecutive readings show less than 0.01% loss. The sample should be examined to assure that a complete burn has been achieved. This will be considered a valid test.
  
 
'''Quality Control Laboratory''' (Sec 403.17.3)
 
'''Quality Control Laboratory''' (Sec 403.17.3)
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The contractor is required to provide an appropriately equipped QC laboratory, however, it is not required to be at the plant. The contractor is also required to provide office space at the asphalt plant for the QA inspector to work on records and reports. Usually, these two requirements are met with one structure, but not always. The intent of the specification will be met if the QA inspector is provided with suitable facilities at the plant, but the lab is located offsite at another location, such as between the jobsite and the plant.  The laboratory should have internet access in the event that cell phone service is not available.
  
 
'''Calibration Schedule''' (Sec 403.17.3.1)
 
'''Calibration Schedule''' (Sec 403.17.3.1)
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===403.1.18 Quality Assurance (Sec 403.18)===
 
===403.1.18 Quality Assurance (Sec 403.18)===
  
See [[460.1 Quality Control/Quality Assurance|Quality Control/Quality Assurance]].
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'''Assurance Testing''' (Sec 403.18.1)
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Under QC/QA, MoDOT performs quality assurance (QA) testing. QA testing is used to verify the QC results. MoDOT is also responsible for independent assurance sampling (IAS) to verify that both QC and QA are performing the testing correctly.
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All QA samples will be at independent random locations from QC. Not testing at random locations introduces statistical bias that is not in the interest of either MoDOT or the contractor. As with informational QC tests for the contractor, the MoDOT inspector may select specific locations for informational QA loose mix or core samples at any time if there is concern about a problem area, however, these may not be used for PWL calculations.
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For volumetric testing, QA must sample enough loose mix material to retain an adequate amount for a second test. This retained sample, as with the QC retained sample, may be used during dispute resolution. QA will randomly sample the mix from the roadway once per lot and perform volumetric testing. At the beginning of the project, QC and QA should be given the opportunity to witness each other’s sampling and testing procedures. Any discrepancies should be immediately resolved at the project level, if possible. QA should test a QC retained volumetric sample once per day to ensure that both QC and QA are testing correctly. These samples should also be chosen at random (do not consistently test the retained sample from the same sublot every lot or develop a pattern).
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For density testing, QA cores shall also be randomly located within a sublot at a frequency of one per lot. However, in the interest of public safety a random QA core test location, such as one in the middle of a busy intersection, should be moved to the closest safe location at the same random transverse offset. When both QC and QA are confident in each other’s testing procedures and favorable comparisons have been obtained on the retained samples, testing of the QC retained volumetric samples may be performed at a reduced frequency as determined by the MoDOT inspector. QA should test a QC retained gradation sample at a minimum of once per week. A minimum of one QC retained consensus sample should be tested per project. QA test results will be furnished to the contractor no later than the day after testing has been performed. A [[media:403 Form QAQC Project Checklist.doc|QA/QC Checklist]] is attached.
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{| border="1" class="wikitable" style="margin: 1em auto 1em auto"
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|+'''QA Test Type & Frequency'''
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! style="background:#BEBEBE" |QA Test Type!! style="background:#BEBEBE" |Minimum By Spec!! style="background:#BEBEBE" |Early in Project!! style="background:#BEBEBE" |Later in Project
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|-
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|Random QA for PWL||1/4 sublots|| 1/4 sublots|| 1/4 sublots
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|-
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|QC Split ||1/week || 1/day || At a reduced frequency as determined by the MoDOT inspector
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|}
  
'''Assurance Testing''' (Sec 403.18.1)
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For single lift overlays and small quantity, QA cores shall be cut in the same location as the QC core.
  
All QA samples will be independent from QC. QA must sample enough material to retain a sample. This retained sample, as with the QC retained sample, may be used during dispute resolution. QA will randomly sample the mix from the roadway once per lot and perform volumetric testing. At the beginning of the project, QC and QA should be given the opportunity to witness each other’s sampling and testing procedures. Any discrepancies should be immediately resolved at the project level, if possible. QA should test a QC retained volumetric sample once per day to ensure that both QC and QA are testing correctly. These samples should also be chosen at random
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'''QA Core Chain of Custody''' (Sec 403.18.2)
(do not consistently test the retained sample from the same sublot every lot or develop a pattern).
 
  
When both QC and QA are confident in each other’s testing procedures and favorable comparisons
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The roadway inspector should ensure that the QA density cores taken from the roadway are the same ones tested in the lab. The preferred procedure is for a MoDOT inspector to take possession of the cores as soon as they are cut and deliver them directly to QA at the plant, so that testing can proceed without delay. When job circumstances make this procedure impractical and the contractor has to deliver the core, the roadway inspector should dry the core with a paper towel and mark the side with identifying marks, including lot and sublot, using a permanent felt-tipped marker. Regardless of who delivers the QA core to the lab, the core shall be placed in a tamper proof bag.
have been obtained on the retained samples, testing of the QC retained volumetric samples may be performed on days that an independent sample is not taken. QA should test a QC retained gradation sample at a minimum of once per week. A minimum of one QC retained consensus sample should be tested per project. Again, all of the testing requirements previously mentioned are minimums and should be increased as necessary. QA test results will be furnished to the contractor no later than the day after testing has been performed. A [[media:403 Form QAQC Project Checklist.doc|QA/QC Checklist]] is attached. For additional information see [[media:403 QAQC Questions and Answers.doc|QA/QC Questions and Answers]].
 
  
'''Aggregate Comparison''' (Sec 403.18.2)
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'''Aggregate Comparison''' (Sec 403.18.3)
  
 
A favorable comparison will be obtained when the independent QA sample(s) meets specifications.
 
A favorable comparison will be obtained when the independent QA sample(s) meets specifications.
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'''Random Numbers''' (Sec 403.19.1)
 
'''Random Numbers''' (Sec 403.19.1)
  
All random numbers will be generated by QA at least one lot in advance. This includes the random numbers for the core locations and loose mix sample locations. A copy of the random numbers will be sealed in an envelope and given to the contractor upon completion of the lot. QC samples that are used to determine the pay factors must be taken at the locations designated by the random numbers unless circumstances warrant relocation. This could include close proximity to another QC sample location in the same production period, areas where mix must be placed by hand, etc. If necessary, the random samples may be separated by 200 tons. QC should be notified of the core location after rolling has been completed. QC should be notified of the loose mix sample location approximately 100 to 150 tons before the test. The independent QA sample must be taken at the location designated by the random number unless circumstances warrant relocation. This could include close proximity to a QC sample location in the same production period, areas where mix must be placed by hand, etc. If necessary the random samples may be separated by 200 tons. The QA inspector should maintain possession of the QA density core from the time of extraction till it’s tested, however; in the event that it’s not possible, the inspector shall place and seal the QA core in a tamper proof bag immediately after extraction and mark the bag label with the project number, lot number, location and inspector signature. The test results from the independent QA sample will be compared to the QC test results to determine whether or not the QC test results adequately define the characteristics of the entire lot. However, QA may take additional samples to determine if an area of concern complies with the specifications. The test results of these additional samples will not be compared to any QC test results.
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All random numbers for QC loose mix samples and cores shall be generated prior to the start of the project for every four sublots. A printout of those numbers will be sealed in an envelope, which will be signed and dated by both QA and QC parties. The QA inspector will keep the envelopes in his/her possession in a secure location. The envelope for every four sublots will be provided to QC at the end of the previous four sublots.
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It is critical that QC (and QA) samples be taken at random locations, because any manipulation of the locations introduces bias. QC test results are used to statistically define a population of data and bias causes inaccuracy in that statistical calculation.
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Random numbers shall be generated by using the Asphalt Random Locations spreadsheet, in order to eliminate any question of bias.  MoDOT inspectors can locate the [http://eprojects/Templates/Asphalt_Random_Locations.xlsm Asphalt Random Locations ]sheet on the internal site.
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QC samples that are used to determine the pay factors must be taken at the locations designated by the random numbers, unless circumstances warrant relocation. This could include close proximity to another QC sample location in the same production period (when QC is at a critical point in testing the previous sample), areas where mix must be placed by hand, etc. In these cases, using good judgment, QA has the authority to separate random samples by up to 200 tons. QC and QA need to work together in good faith to make this process run smoothly.
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<u>QC should be notified of the core location after rolling has been completed. QC should be notified of the loose mix sample location approximately 100 to 150 tons before the test.</u>  The intent is to give QC enough time to conclude any ongoing tests and collect the next samples.  When the sampling for every four sublots is completed, the envelope for those sublots will be opened to demonstrate that the random numbers were not manipulated during production.
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The independent QA sample must be taken at the location designated by a random number unless circumstances warrant relocation. This could include close proximity to a QC sample location in the same production period, areas where mix must be placed by hand, etc. If necessary, the random samples may be separated by 200 tons. The QA inspector shall place and seal the QA core in a tamper-proof bag immediately after extraction and mark the bag label with the project number, lot number, location and inspector signature. The test results from the independent QA sample will be compared to the QC test results to determine if the QC test results adequately define the characteristics of the entire lot. However, QA may take additional samples to determine if an area of concern complies with the specifications. The test results of these additional samples will not be compared to any QC test results.
  
 
'''Lots''' (Sec 403.19.2)
 
'''Lots''' (Sec 403.19.2)
  
For the purposes of pay factor determination, the mat will be divided into lots with a minimum
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For the purposes of pay factor determination, the mat will be divided into lots with a minimum of 4 sublots per lot. The maximum sublot size is 1000 tons. If a full lot cannot be completed, the extra sublots will be added to the previous full lot and the pay factors will be determined on the large lot. If there is no previous lot, the mix will be treated as small quantities and Standard Specification Section 403.23.7.4.1 will apply.
of 4 sublots per lot. The maximum sublot size is 1000 tons. If a full lot cannot be completed,
 
the extra sublots will be added to the previous full lot and the pay factors will be determined on the large lot. If there is no previous lot, the mix will be treated as small quantities and Standard Specification Section 403.23.7.4.1 will apply.
 
  
If the target binder content is adjusted from the original JMF, a new lot shall begin. This
+
If the target binder content is adjusted from the original JMF, a new lot shall begin. This will ensure that the binder content pay factor will represent the population of the adjusted mix. If the cold feed settings are adjusted from the original JMF alone, a new lot is not required. Adjusting the cold feed settings will change the G<sub>sb</sub> and, therefore, the VMA of the mix. However, the VMA specification limits are based on the type of mix (see [[#Voids in the Mineral Aggregate (VMA) (Sec 403.5.4)|Voids in the Mineral Aggregate (VMA) (Sec 403.5.4)]] and do not change. The VMA is required to be within this range, even if changes are made to the JMF. A new lot sequence shall begin when a new mix design is established. The limits of adjustment can be found in Standard Specification Section 403.11.
will ensure that the binder content pay factor will represent the population of the adjusted mix. If the cold feed settings are adjusted from the original JMF alone, a new lot is not required. Adjusting the cold feed settings will change the G<sub>sb</sub> and, therefore, the VMA of the mix. However, the VMA specification limits are based on the type of mix (see [[#Voids in the Mineral Aggregate (VMA) (Sec 403.5.4)|Voids in the Mineral Aggregate (VMA) (Sec 403.5.4)]] and do not change. The VMA is required to be within this range, even if changes are made to the JMF. A new lot sequence shall begin when a new mix design is established. The limits of adjustment can be found in Standard Specification Section 403.11.
 
  
 
'''Test and Pay Factor Items''' (Sec 403.19.3)
 
'''Test and Pay Factor Items''' (Sec 403.19.3)
  
The minimum sampling and testing requirements for both QC and QA, as shown in the table in Standard Specification Section 403.19.3, have been modified as a result of the QC/QA Process Team. The guidelines set forth in this document should be followed. In regards to note b, one core equals one sample and the results will be used to determine the density pay factor for the corresponding sublot. However, if stated in the QC Plan, a maximum of two additional cores may be taken per sublot. This gives a maximum total of three cores per sublot. One core must be taken at the location selected by random numbers. The remaining cores must be taken at the same transverse offset within one foot longitudinally of the location selected by the random numbers. If more than one core is taken per sublot, all of the cores will be combined into one sample. This means that the average density of the cores will be used to determine the density pay factor for the corresponding sublot.
+
Regarding Note 'b', one core equals one sample and the results will be used to determine the density pay factor for the corresponding sublot. However, if stated in the QC Plan, a maximum of two additional cores may be taken per sublot. This gives a maximum total of three cores per sublot. One core must be taken at the location selected by random numbers. The remaining cores must be taken at the same transverse offset within one foot longitudinally of the location selected by the random numbers. If more than one core is taken per sublot, all of the cores will be combined into one sample. This means that the average density of the cores will be used to determine the density pay factor for the corresponding sublot.
  
 
'''Test Method Modification''' (Sec 403.19.3.1)
 
'''Test Method Modification''' (Sec 403.19.3.1)
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This specification adjusts the temperature of the binder ignition oven due to the breakdown of certain aggregate formations as a result of intense heat.
 
This specification adjusts the temperature of the binder ignition oven due to the breakdown of certain aggregate formations as a result of intense heat.
 
+
<div id="Rice Test"></div>
 
'''Rice Test''' (Sec 403.19.3.1.2)
 
'''Rice Test''' (Sec 403.19.3.1.2)
  
If the absorption of any aggregate fraction used in the mix is greater than 2.0%, AASHTO T209 must be modified in accordance with Standard Specification Section 403.19.3.1.2. This procedure is called the dry-back method. The final surface-dry weight will be recorded in the APIW as “A2”. If necessary, the dry-back method should be performed on all samples taken in the first lot of mix produced. If the initial G<sub>mm</sub> and the dry-back G<sub>mm</sub> of a sample are within 0.002 of each other in all sublots of the first lot, the dry-back may be reduced to every other sublot. Otherwise, the dry-back will be required every sublot.
+
If the absorption of any aggregate fraction used in the mix is greater than 2.0%, AASHTO T209 must be modified in accordance with Standard Specification Section 403.19.3.1.2. This procedure is called the dry-back method. The final surface-dry weight will be recorded in the APIW as “A2”. If necessary, the dry-back method should be performed on all samples taken in the first lot of mix produced. If the initial G<sub>mm</sub> and the dry-back G<sub>mm</sub> of a sample are within 0.002 of each other in all sublots of the first lot, the dry-back may be reduced to every fourth sublot. Otherwise, the dry-back will be required every sublot.
  
 
'''Miscellaneous Applications''' (Sec 403.19.3.2)
 
'''Miscellaneous Applications''' (Sec 403.19.3.2)
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'''Small Quantities''' (Sec 403.19.3.2.1)
 
'''Small Quantities''' (Sec 403.19.3.2.1)
  
A mix that requires less than 3000 tons on a project is referred to as small quantities. Testing frequencies will be as stated in Standard Specification Section 403.19.3.2.1(b). If a project is initially setup with less than 3000 tons, pay factors will not be determined unless an adjustment is made to the contract to before production begins. If a project is initially setup with more than 3000 tons but less than 3000 tons are placed, pay factor determination is not required and Standard Specification Section 403.23.7.4.1 will apply.
+
A mix that requires less than 4000 tons on a project is referred to as small quantities. Testing frequencies will be as stated in Standard Specification Section 403.19.3.2.1(b). If a project is initially setup with less than 4000 tons, pay factors will not be determined unless an adjustment is made to the approved QC plan before production begins. If a project is initially setup with more than 4000 tons but less than 4000 tons are placed, pay factor determination is not required and Standard Specification Section 403.23.7.4.1 will apply.
  
 
'''Dispute Resolution''' (Sec 403.19.4)
 
'''Dispute Resolution''' (Sec 403.19.4)
  
See [[460.1 Quality Control/Quality Assurance|Quality Control/Quality Assurance]]
+
The vast majority of issues between QC and QA can be resolved by consulting the QC Plan, the Test Method or the contract documents. Dispute decisions should always be timely and made at the lowest  <u>'''appropriate'''</u> level.  However, if a dispute cannot be resolved within a few hours of taking these initial steps, it should be escalated.
 +
 
 +
Occasionally, the QC test may not represent the population or, due to individual differences in sampling and testing procedures, the QA and QC test results may not compare within the required limits. One of the first steps in resolution could be an immediate computation check, comparison of sampling and testing procedures, or split sample retests. Testing of the QC split sample or joint sampling and testing could determine if variations in the mix production or sampling and testing procedures are responsible for the differences. If resolution is not possible at the project level, either party may request that the approved independent third party test the mix. Third party test results will be binding upon both parties. The party whose results were incorrect will pay for the third party testing. Third party testing is costly and time consuming and should only be used when project level reconciliation is not possible.
  
 
===403.1.20 Method of Measurement (Sec 403.22)===
 
===403.1.20 Method of Measurement (Sec 403.22)===
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109.15. If one QA core is cut per location, that core is equal to one sample. If more than one QA core is cut per location, the test results will be averaged and those cores will equal one sample.
 
109.15. If one QA core is cut per location, that core is equal to one sample. If more than one QA core is cut per location, the test results will be averaged and those cores will equal one sample.
  
'''Smoothness Adjustment''' (Sec 403.23.4)
+
'''Smoothness Adjustment''' (Sec 610.5)
 
[[image:403.1.21 Diamond Grinding.jpg|right|275px|thumb|<center>'''Diamond Grinding'''</center>]]
 
[[image:403.1.21 Diamond Grinding.jpg|right|275px|thumb|<center>'''Diamond Grinding'''</center>]]
 +
<div id="Diamond Grinding"></div>
 
'''Diamond Grinding''' (Sec 403.23.4.1)
 
'''Diamond Grinding''' (Sec 403.23.4.1)
  
Areas of the final driving surface that must be corrected by diamond grinding will not be considered as a marred surface. However, a tack coat must be applied to these areas so that the surface is adequately sealed. The tack must be cut (diluted) with water so that the resulting mixture is at most 50% tack. The tack shall be applied at a rate near the lower limit of the range specified in Standard Specification Section 407.4.2. The inspector should ensure that the proper application procedures are used. Excess tack must be blotted with sand.
+
Areas of the final driving surface that must be corrected by diamond grinding will be considered as a marred surface ([http://www.modot.org/business/standards_and_specs/SpecbookEPG.pdf#page=9 Sec 610.5.3]). A tack coat will not be applied to these areas. No direct payment will be made for diamond grinding.  
No direct payment will be made for this application.
 
  
 
'''Tensile Strength Retained Adjustment''' (Sec 403.23.5)
 
'''Tensile Strength Retained Adjustment''' (Sec 403.23.5)
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'''Density Adjustment''' (Sec 403.23.6)
 
'''Density Adjustment''' (Sec 403.23.6)
  
QC will take one unconfined longitudinal joint core per sublot, if applicable. These cores will be taken within 6 in. of the unconfined longitudinal joint. Unconfined joint cores can either be located at the same longitudinal location as the corresponding mat density cores or separate
+
QC will take one unconfined longitudinal joint core per sublot, as specified in the QCP. These cores will be taken within 6 in. of the unconfined longitudinal joint. Unconfined joint cores can either be located at the same longitudinal location as the corresponding mat density cores or separate
 
random numbers can be generated. The test results for each lot will be averaged to determine
 
random numbers can be generated. The test results for each lot will be averaged to determine
 
compliance with the specifications. Pay adjustments will be in accordance with the following
 
compliance with the specifications. Pay adjustments will be in accordance with the following
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| Colspan="2" | For all SP mixtures other than SP125xSM
 
| Colspan="2" | For all SP mixtures other than SP125xSM
 
|-
 
|-
| 90.0 to 96.0 includsive || 100
+
| 90.0 to 96.0 inclusive || 100
 
|-
 
|-
 
| 96.1 to 96.5 or 89.5 to 89.9 inclusive || 90  
 
| 96.1 to 96.5 or 89.5 to 89.9 inclusive || 90  
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|}
 
|}
  
If pay reductions are necessary, the lower adjusted contract unit price of the PWL or the
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If pay reductions are necessary, the lower adjusted contract unit price of the PWL or the unconfined joint density adjustment will apply to the corresponding tonnage. For example, assume that the lot size is 4000 tons and that 1000 tons in the lot has an unconfined joint. The total pay factor for the lot due to volumetric testing is 105%. A longitudinal joint core is taken as required and the pay factor due to the unconfined joint density is 90%. As a result, a 10% reduction to the contract unit price will be applied to the 1000 tons represented by the unconfined joint and a 5% bonus will be paid for the remaining tonnage in the lot (3000 tons). On the other hand, if the pay factor due to the unconfined joint density were 100%, the 5% bonus would be paid for the entire lot. Longitudinal joint density is very important and this is an attempt to ensure that density is achieved. If it is not, the joint will ravel. Longitudinal joint core density testing will be waived if the contractor elects to mill off 6” of the unconfined joint edge.
unconfined joint density adjustment will apply to the corresponding tonnage. For example,
 
assume that the lot size is 4000 tons and that 1000 tons in the lot has an unconfined joint. The
 
total pay factor for the lot due to volumetric testing is 105%. A longitudinal joint core is taken as required and the pay factor due to the unconfined joint density is 90%. As a result, a 10% reduction to the contract unit price will be applied to the 1000 tons represented by the unconfined joint and a 5% bonus will be paid for the remaining tonnage in the lot (3000 tons). On the other hand, if the pay factor due to the unconfined joint density were 100%, the 5% bonus would be paid for the entire lot. Longitudinal joint density is very important and this is an attempt to ensure that density is achieved. If it is not, the joint will ravel.
 
  
 
'''Percent Within Limits (PWL)''' (Sec 403.23.7)
 
'''Percent Within Limits (PWL)''' (Sec 403.23.7)
 +
 +
Superpave mixes contain a quality level analysis with statistically based incentive/disincentive pay factors. The QC tests are analyzed on each lot of mix and the pay is based on the percentage of the mix that statistically falls within the limits of the specifications. It is possible to have a given lot of mix with all tests falling within the specifications, but because of a large amount of deviation between test results, the percent within limits would be very low, giving the contractor a correspondingly low pay factor. Very consistent test results, with a correspondingly low standard deviation and high percent within limits, will produce high pay factors. Test results that are consistent may produce bonus pay factors while those that fluctuate within the specification limits will produce low pay factors.
  
 
The mean (x<sub>a</sub>), standard deviation (s), Upper Quality Index (Q<sub>u</sub>), Lower Quality Index(Q<sub>l</sub>), and total percent within limits (PWLt) are calculated for each pay factor item in each lot using the equations given in Standard Specification Section 403.23.7. The PWL for an item can be determined using Table III in Standard Specification Section 502.15.8. To use this table, calculate the Q<sub>u</sub> of the item and round the result to two digits (X.XX). Find the result in the left hand column of the table and move along the row to the right until reaching the column with the corresponding n-value. The n-value is the number of test results for the item in the lot. This process yields the upper percent within limits (PWL<sub>u</sub>) of the item. Repeat this process to determine the
 
The mean (x<sub>a</sub>), standard deviation (s), Upper Quality Index (Q<sub>u</sub>), Lower Quality Index(Q<sub>l</sub>), and total percent within limits (PWLt) are calculated for each pay factor item in each lot using the equations given in Standard Specification Section 403.23.7. The PWL for an item can be determined using Table III in Standard Specification Section 502.15.8. To use this table, calculate the Q<sub>u</sub> of the item and round the result to two digits (X.XX). Find the result in the left hand column of the table and move along the row to the right until reaching the column with the corresponding n-value. The n-value is the number of test results for the item in the lot. This process yields the upper percent within limits (PWL<sub>u</sub>) of the item. Repeat this process to determine the
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'''Quality Level Analysis''' (Sec 403.23.7.1)
 
'''Quality Level Analysis''' (Sec 403.23.7.1)
 +
 +
Best management practice is for QA to review the QLA with QC before processing the report.  Sec 403.23.7.1 requires QA to make the QLA no more than 24 hours after receipt of the contractor’s test results.
  
 
'''Acceptance''' (Sec 403.23.7.1.1)
 
'''Acceptance''' (Sec 403.23.7.1.1)
  
(Sec 403.23.7.1.1.1) The QC test results will be used to determine the PWL as long as QC and
+
The QC test results will be used to determine the PWL as long as QC and
 
QA compare favorably. If a favorable comparison is not obtained, dispute resolution procedures
 
QA compare favorably. If a favorable comparison is not obtained, dispute resolution procedures
 
should be initiated. If dispute resolution is carried out to independent third party testing and the QC test results have been determined to be correct by the third party, the QC test results will be used to calculate the PWL. If the QA test results have been determined to be correct by the third party, the QA test results will be included in the PWL calculation.
 
should be initiated. If dispute resolution is carried out to independent third party testing and the QC test results have been determined to be correct by the third party, the QC test results will be used to calculate the PWL. If the QA test results have been determined to be correct by the third party, the QA test results will be included in the PWL calculation.
  
(Sec 403.23.7.1.1.2) A favorable comparison is obtained when the QA test results of a random,
+
During the project, QA and QC should be given the opportunity to witness each other’s sampling, splitting and testing. Doing so will help avoid future conflict.
 +
For comparison of QC and QA cores, the density for the QA core will be calculated using the G<sub>mm</sub> from the corresponding QC loose mix sample from the same sublot.
 +
 
 +
'''Comparison''' (Sec 403.23.7.1.2)
 +
 
 +
Copies of all test methods should be readily available in the field laboratory. Testing procedures must follow an approved test method. If either party has an issue with the other’s sampling, splitting or testing procedures, an objection should be raised at that time. By doing this promptly, the issue can be resolved while it is still possible to re-create the test. If a decision is made to test a retained sample, the test should be run jointly so that the testing procedure is removed as a possible variable for explaining the difference in results.
 +
 
 +
A favorable comparison is obtained when the QA test results of a random,
 
independent sample are within two standard deviations of the average of the QC test results. This determination cannot be made until all random testing for the lot has been completed. If the QC test results vary within the specification tolerances, the standard deviation will be large. In fact, as the variability in the QC test results increases, the standard deviation also increases. This results in a wide comparison range and low pay factors. On the other hand, if there is little variability in the QC test results, the standard deviation will be small. The comparison range will be narrow and the pay factors will increase. In this case, a favorable comparison is obtained when the QA test results are within one-half of the specification tolerances of the QC average. For example, the specification tolerances for VMA are –0.5% to +2.0%. One-half of this range is 1.25%. Therefore, a favorable comparison is obtained if the QA test result is within ±0.6% of the QC average.
 
independent sample are within two standard deviations of the average of the QC test results. This determination cannot be made until all random testing for the lot has been completed. If the QC test results vary within the specification tolerances, the standard deviation will be large. In fact, as the variability in the QC test results increases, the standard deviation also increases. This results in a wide comparison range and low pay factors. On the other hand, if there is little variability in the QC test results, the standard deviation will be small. The comparison range will be narrow and the pay factors will increase. In this case, a favorable comparison is obtained when the QA test results are within one-half of the specification tolerances of the QC average. For example, the specification tolerances for VMA are –0.5% to +2.0%. One-half of this range is 1.25%. Therefore, a favorable comparison is obtained if the QA test result is within ±0.6% of the QC average.
  
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If the QC and QA test results have been determined to be valid and the comparison is still unfavorable, the test results from the random, independent QA sample will be included in the PWL calculation. The QA test results of QC retained samples or the test results from any additional QA samples will not be used in the PWL calculation. As an example, lot 3 has been completed and consists of 4 sublots. A favorable comparison was not obtained but it was determined that the QC and QA test results are valid. Therefore, the PWL calculation will include the QC test results from all 4 of the sublots and the test results of the random, independent QA sample (n = 5).
 
If the QC and QA test results have been determined to be valid and the comparison is still unfavorable, the test results from the random, independent QA sample will be included in the PWL calculation. The QA test results of QC retained samples or the test results from any additional QA samples will not be used in the PWL calculation. As an example, lot 3 has been completed and consists of 4 sublots. A favorable comparison was not obtained but it was determined that the QC and QA test results are valid. Therefore, the PWL calculation will include the QC test results from all 4 of the sublots and the test results of the random, independent QA sample (n = 5).
  
A favorable comparison is obtained when the QA test results of a QC retained volumetric sample are within 0.005 of the QC Gmm test results, within 0.010 of the QC Gmb test results, and within 0.1% of the QC asphalt content test results. If larger variances occur, both QC and QA should investigate the sampling and testing procedures to identify and rectify the cause of the discrepancy.
+
When the random QA test results are included in the PWL calculation, all volumetric properties (%AC, VMA & VA) for that sample will be used, even if only one of the three properties has an unfavorable comparison.
  
'''Outliers''' (Sec 403.23.7.1.2)
+
For the random split sample comparisons of QC loose mix, a favorable comparison is obtained when the QA test results of a QC retained volumetric sample are within 0.010 of the QC G<sub>mm</sub> test results, within 0.010 of the QC G<sub>mb</sub> test results, and within 0.1% of the QC asphalt content test results. If larger variances occur, both QC and QA should investigate the sampling and testing procedures to identify and rectify the cause of the discrepancy.
 +
 
 +
'''Outliers''' (Sec 403.23.7.1.3)
  
 
If it is suspected that an individual QC test result is an outlier, the entire lot of QC test results may be checked in accordance with Standard Specification Section 403.23.7.1.2. The eligible measured test results are G<sub>mb</sub>, G<sub>mc</sub>, G<sub>mm</sub>, and %AC. G<sub>mb</sub>, G<sub>mc</sub>, and G<sub>mm</sub> shall be carried out to three decimal places (X.XXX) and the %AC shall be carried out to two decimal places (X.XX). On the other hand, V<sub>a</sub>, VMA, and density are not eligible because these are calculated volumetric properties.
 
If it is suspected that an individual QC test result is an outlier, the entire lot of QC test results may be checked in accordance with Standard Specification Section 403.23.7.1.2. The eligible measured test results are G<sub>mb</sub>, G<sub>mc</sub>, G<sub>mm</sub>, and %AC. G<sub>mb</sub>, G<sub>mc</sub>, and G<sub>mm</sub> shall be carried out to three decimal places (X.XXX) and the %AC shall be carried out to two decimal places (X.XX). On the other hand, V<sub>a</sub>, VMA, and density are not eligible because these are calculated volumetric properties.
  
If an outlier is found, QC may test the retained sample from the corresponding sublot.Again, the entire suite of tests (%AC, G<sub>mb</sub>, and G<sub>mm</sub>) must be performed. If the test results from the retained sample confirm the original test results, the original test results will be used to calculate the PWL. If the test results from the retained sample do not confirm the original test results,the test results from the retained sample will be used to calculate the PWL.
+
If an outlier is found, QC may test the retained sample from the corresponding sublot. Again, the entire suite of tests (%AC, G<sub>mb</sub>, and G<sub>mm</sub>) must be performed. If the test results from the retained sample confirm the original test results, the original test results will be used to calculate the PWL. If the test results from the retained sample do not confirm the original test results, the test results from the retained sample will be used to calculate the PWL.
  
 
When any change is made in the JMF, the previous test results cannot be used for future outlier calculations since the mix has changed. For example, if the contractor has made a change in sublot 2B and wants to check for an outlier in sublot 2D, the results from sublot 2A cannot be
 
When any change is made in the JMF, the previous test results cannot be used for future outlier calculations since the mix has changed. For example, if the contractor has made a change in sublot 2B and wants to check for an outlier in sublot 2D, the results from sublot 2A cannot be
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Mix is typically produced and measured by the ton. Therefore, in order to eliminate confusion and excessive conversions on square yard projects (full depth pavements), the lots will be tracked by tonnage. When the pay factors are calculated at the end of the lot, the “Square Yard Calculator” in the Pay Factor Worksheet can be used to determine the square yards in the lot. This is best explained with an example:
 
Mix is typically produced and measured by the ton. Therefore, in order to eliminate confusion and excessive conversions on square yard projects (full depth pavements), the lots will be tracked by tonnage. When the pay factors are calculated at the end of the lot, the “Square Yard Calculator” in the Pay Factor Worksheet can be used to determine the square yards in the lot. This is best explained with an example:
  
On a full-depth paving project, the total thickness of the pavement is 12 in. and the contractor
+
On a full-depth paving project, the total thickness of the pavement is 12 in. and the contractor is placing two lifts of SP190, one 6 in. lift and one 4.25 in. lift. The final lift of SP125 is 2 in. thick. The lot size is 3000 tons. Suppose that one lot of SP190 has been completed. The total thickness of the pavement and the lift thicknesses are entered in the appropriate cells in the “Square Yard Calculator”. The length and width of the lot must be measured manually. The width of the lot is 12 ft., the length of the first lift is 4650 ft., and the length of the second lift is 3300 ft. Therefore, the area of the first lift is 6200.0 yd<sup>2</sup> (12 ft. * 4650 ft. = 55800 ft<sup>2</sup> * (1 yd<sup>2</sup>/9 ft<sup>2</sup>) = 6200 yd<sup>2</sup>) and is entered in the appropriate cell. The area of the second lift is 4400.0 yd<sup>2</sup>(12 ft. * 3300 ft. = 39600 ft<sup>2</sup> * (1 yd<sup>2</sup>/9ft<sup>2</sup>) = 4400 yd<sup>2</sup>) and is entered in the appropriate cell. The square yardage represented by each lift is calculated by multiplying the square yards by the lift thickness divided by the total pavement thickness. Therefore, the square yardage of the first lift is 3100.0 yd<sup>2</sup> (6200 yd<sup>2</sup> * (6 in./12 in.) = 3100 yd<sup>2</sup>) and the square yardage of the second lift is 1558.3 yd<sup>2</sup> (4400 yd<sup>2</sup> * (4.25 in./12 in.) = 1558.3 yd<sup>2</sup>). This lot represents 4658.3 square yards. This procedure is followed for the remaining lots.
is placing two lifts of SP190, one 6 in. lift and one 4.25 in. lift. The final lift of SP125 is
 
1.75 in. thick. The lot size is 3000 tons. Suppose that one lot of SP190 has been completed. The
 
total thickness of the pavement and the lift thicknesses are entered in the appropriate cells in the “Square Yard Calculator”. The length and width of the lot must be measured manually. The
 
width of the lot is 12 ft., the length of the first lift is 4650 ft., and the length of the second lift is 3300 ft. Therefore, the area of the first lift is 6200.0 yd<sup>2</sup> (12 ft. * 4650 ft. = 55800 ft<sup>2</sup> * (1 yd<sup>2</sup>/9 ft<sup>2</sup>) = 6200 yd<sup>2</sup>) and is entered in the appropriate cell. The area of the second lift is 4400.0 yd<sup>2</sup>
 
(12 ft. * 3300 ft. = 39600 ft<sup>2</sup> * (1 yd<sup>2</sup>/9ft<sup>2</sup>) = 4400 yd<sup>2</sup>) and is entered in the appropriate cell. The square yardage represented by each lift is calculated by multiplying the square yards by the lift thickness divided by the total pavement thickness. Therefore, the square yardage of the first lift is 3100.0 yd<sup>2</sup> (6200 yd<sup>2</sup> * (6 in./12 in.) = 3100 yd<sup>2</sup>) and the square yardage of the second lift is 1558.3 yd<sup>2</sup> (4400 yd<sup>2</sup> * (4.25 in./12 in.) = 1558.3 yd<sup>2</sup>). This lot represents 4658.3 square yards. This procedure is followed for the remaining lots.
 
  
 
'''Density Pay Factor''' (Sec 403.23.7.2.1)
 
'''Density Pay Factor''' (Sec 403.23.7.2.1)
  
Density is calculated using the G<sub>mc</sub> of the core and the G<sub>mm</sub> of the mix. The PF<sub>density</sub> for each lot is calculated using the density test results of all of the
+
Density is calculated using the G<sub>mb</sub> of the core and the G<sub>mm</sub> of the mix. The PF<sub>density</sub> for each lot is calculated using the density test results of all of the
 
sublots. Cores that are cut in half, as required by Standard Specification Section 403.15.4, will double the number of test results used to determine PFdensity. For example, suppose that the contractor is placing SP190 in 8” lifts and 4 cores are taken per lot, 1 per sublot. The lift is being placed thicker than 6 times the nominal maximum size aggregate used in the mix. By specification, the cores are to be cut in half and the density of each half determined separately. Therefore, 8 test results (as opposed to 4) will be used to determine the PF<sub>density</sub> for the lot.
 
sublots. Cores that are cut in half, as required by Standard Specification Section 403.15.4, will double the number of test results used to determine PFdensity. For example, suppose that the contractor is placing SP190 in 8” lifts and 4 cores are taken per lot, 1 per sublot. The lift is being placed thicker than 6 times the nominal maximum size aggregate used in the mix. By specification, the cores are to be cut in half and the density of each half determined separately. Therefore, 8 test results (as opposed to 4) will be used to determine the PF<sub>density</sub> for the lot.
  
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'''Removal of Material''' (Sec 403.23.7.3)
 
'''Removal of Material''' (Sec 403.23.7.3)
  
If the PF<sub>T</sub> for a lot is less than 50.0, the entire lot must be removed and replaced at the contractor’s expense. If the QC test results for density and/or air voids fall below the removal limits in any sublot, the affected mix must be removed and replaced at the contractor’s expense. The specifications state that the entire sublot must be removed. However, in some cases only a portion of the affected sublot(s) may require removal. Therefore, the limits of removal will be left up to the Resident Engineer's discretion. QC self-test results may be used to help define the limits of removal as long as the self-test(s) are well documented (see [[#Asphalt Test Results (Sec 403.17.1.1)|Asphalt Test Results (Sec 403.17.1.1)]] for the documentation requirements). The replacement mix will be sampled and tested as required. These test results will be used to calculate the PWL for the lot.
+
If the PF<sub>T</sub> for a lot is less than 50.0, the entire lot must be removed and replaced at the contractor’s expense. If the QC test results for density and/or air voids fall below the removal limits in any sublot, the affected mix must be removed and replaced at the contractor’s expense. The specifications state that the entire sublot must be removed. However, in some cases only a portion of the affected sublot(s) may require removal. Therefore, the limits of removal will be left up to the Resident Engineer's discretion. QC informational test results may be used to help define the limits of removal as long as the informational test(s) are well documented (see [[#Asphalt Test Results (Sec 403.17.1.1)|Asphalt Test Results (Sec 403.17.1.1)]] for the documentation requirements). The replacement mix will be sampled and tested as required. These test results will be used to calculate the PWL for the lot.
  
 
If the QA test results fall below the removal limits for density and/or air voids, the mix
 
If the QA test results fall below the removal limits for density and/or air voids, the mix
should stay in place if a favorable comparison has been obtained with the QC test results. Again, a favorable comparison signifies that the QC test results adequately define the characteristics of the lot and are, therefore, acceptable. If the QA test results fall below the removal limits and a favorable comparison has not been obtained, dispute resolution should be initiated to determine whether or not the mix should stay in place.
+
should stay in place if a favorable comparison has been obtained with the QC test results. Again, a favorable comparison signifies that the QC test results adequately define the characteristics of the lot and are, therefore, acceptable. If the QA test results fall below the removal limits and a favorable comparison has not been obtained, dispute resolution should be initiated to determine if the mix should stay in place.
 +
 
 +
For small quantities, if the laboratory compacted air voids are less than 2.5%, or the roadway density is less than 90.0% or more than 98%, the material should be removed and replaced. If asphalt content is above or below the target value by more than 0.3%, or if the roadway density is between 91.5% and 90%, the mixture may be allowed to remain in place with an appropriate deduction.
  
 
'''Miscellaneous Applications''' (Sec 403.23.7.4)
 
'''Miscellaneous Applications''' (Sec 403.23.7.4)
Line 747: Line 817:
 
'''Small Quantities''' (Sec 403.23.7.4.1)
 
'''Small Quantities''' (Sec 403.23.7.4.1)
  
For small quantity projects consisting of less than 3000 tons, the statistical analysis of the mix is not required. Therefore, pay factors will not be determined. However, the mix must meet density, binder content, VMA, and V<sub>a</sub> specifications. The testing frequencies are stated in Standard Specification Section 403.19.3.2.1(b). Density will be adjusted in accordance with the table in Standard Specification Section 403.23.7.4.1(b). TSR testing is also required.
+
For small quantity projects consisting of less than 4000 tons, the statistical analysis of the mix is not required. Therefore, pay factors will not be determined. However, the mix must meet density, binder content, VMA, and V<sub>a</sub> specifications. The testing frequencies are stated in Standard Specification Section 403.19.3.2.1(b). Density will be adjusted in accordance with the table in Standard Specification Section 403.23.7.4.1(b). TSR testing is also required.
 +
 
 +
The contractor may use the PWL pay factors for a small quantity if they are specified in their QC plan.
  
 
'''Base Widening and Entrances''' (Sec 403.23.7.4.2)
 
'''Base Widening and Entrances''' (Sec 403.23.7.4.2)
Line 760: Line 832:
 
|'''Asphalt, Permeability'''
 
|'''Asphalt, Permeability'''
 
|-
 
|-
|[http://library.modot.mo.gov/RDT/reports/Ri07053/or09017.pdf Report 2009]
+
|[https://spexternal.modot.mo.gov/sites/cm/CORDT/or10010.pdf Report 2009]
 
|-
 
|-
|'''See also:''' [http://www.modot.gov/services/OR/byDate.htm Innovation Library]
+
|'''See also:''' [https://www.modot.org/research-publications Research Publications]
 
|}
 
|}
 
===403.2.1 Scope===
 
===403.2.1 Scope===
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'''District Procedure'''
 
'''District Procedure'''
  
When the District receives a proposed trial mix formula, as required by the Standard Specifications, the mixture properties, components and proportions should be checked to ensure compliance with Specifications and that they are approved for the intended use. It may be necessary for the District to advise the contractor to make changes in the proposed mixture in order to comply with Department policies. The District shall provide SiteManager ID’s and all pertinent information (gradation, deleterious, etc.) for each fraction of aggregate used in the mixture. A QC plan in accordance with Section 1001 of the Materials Manual covering each aggregate fraction should be on file in the District Office or received with the JMF. The target gradations shown on the QC plan and JMF must match. When the District is satisfied that the proposed mixture is acceptable, a copy of the JMF and the contractor's letter shall be submitted to the Materials Field Office, accompanied by a letter of transmittal with comments, any corrections made and recommendations. The transmittal letter shall contain the following information:
+
When the District receives a proposed trial mix formula, as required by the Standard Specifications, the mixture properties, components and proportions should be checked to ensure compliance with Specifications and that they are approved for the intended use. It may be necessary for the District to advise the contractor to make changes in the proposed mixture in order to comply with Department policies. The district shall provide AWP IDs and all pertinent information (gradation, deleterious, etc.) for each fraction of aggregate used in the mixture. A QC plan in accordance with Section 1001 of the Materials Manual covering each aggregate fraction should be on file in the District Office or received with the JMF. The target gradations shown on the QC plan and JMF must match. When the District is satisfied that the proposed mixture is acceptable, a copy of the JMF and the contractor's letter shall be submitted to the Materials Field Office, accompanied by a letter of transmittal with comments, any corrections made and recommendations. The transmittal letter shall contain the following information:
  
 
:Project information – Job Number, Route, County, Contract Number.
 
:Project information – Job Number, Route, County, Contract Number.
 
:Mixture Types
 
:Mixture Types
:Grade and Source of Asphalt Binder
+
:Grade and All Possible Sources of Asphalt Binder Intended for Use
 
:Letting Date
 
:Letting Date
 
:Proposed Work – Type of Work, Job Location and Length
 
:Proposed Work – Type of Work, Job Location and Length
Line 798: Line 870:
 
:c. District personnel have concerns over any aspect of the mix design.
 
:c. District personnel have concerns over any aspect of the mix design.
  
Requests for previously approved mixes shall be submitted and will be approved in accordance with applicable portions of this Section. Mixtures approved under pre-2004 Standard Specifications may be transferred within the time limit of 3 years from the approval date. Transfer requests for mixtures that exhibited poor performance or field problems should be denied.
+
Requests for previously approved mixes shall be submitted and will be approved in accordance with applicable portions of EPG 403 Asphaltic Concrete Pavement. Approved mixtures may be transferred within the time limit of 3 years from the approval date. Transfer requests for mixtures that exhibited poor performance or field problems should be denied.
  
 
Upon request by the contractor, the District has authority to change the source of mineral filler, hydrated lime, natural sand from the Missouri and Mississippi Rivers or asphalt binder. However, constant changing throughout a project should not be allowed. The contractor must provide reasonable justification for changing sources during the course of a project. Any adjustments should be made to the JMF to reflect changed properties caused by the new source. (e.g. Change in G<sub>sb</sub>, gradation, asphalt content, etc.)
 
Upon request by the contractor, the District has authority to change the source of mineral filler, hydrated lime, natural sand from the Missouri and Mississippi Rivers or asphalt binder. However, constant changing throughout a project should not be allowed. The contractor must provide reasonable justification for changing sources during the course of a project. Any adjustments should be made to the JMF to reflect changed properties caused by the new source. (e.g. Change in G<sub>sb</sub>, gradation, asphalt content, etc.)
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:b. Contract Special Provisions for the project are checked for necessary items.
 
:b. Contract Special Provisions for the project are checked for necessary items.
 
:c. The urgency of the mix and the status of trial mix samples in the Central Laboratory are reviewed.
 
:c. The urgency of the mix and the status of trial mix samples in the Central Laboratory are reviewed.
:d. Grade of asphalt as well as the refinery to be used and the percent asphalt recommended are reviewed.
+
:d. Grade of asphalt, possible sources intended for use and the percent asphalt recommended are reviewed.
 
:e. Gradations of the individual aggregates are checked for specification compliance and compared with the gradations determined by the Laboratory.
 
:e. Gradations of the individual aggregates are checked for specification compliance and compared with the gradations determined by the Laboratory.
 
:f. All calculations on the proposed JMF are checked.
 
:f. All calculations on the proposed JMF are checked.
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:i. Formulas to check aggregate and mixture properties are shown in LS 403.
 
:i. Formulas to check aggregate and mixture properties are shown in LS 403.
 
:j. Absorption values obtained by AASHTO T85 or T85 Combined will be shown on the JMF for determining which mixtures require the optional dry-back procedure of AASHTO T209.
 
:j. Absorption values obtained by AASHTO T85 or T85 Combined will be shown on the JMF for determining which mixtures require the optional dry-back procedure of AASHTO T209.
 +
:k. Upon JMF approval, a unique JMF number will be created and entered into AWP for each possible asphalt source.  Each JMF will have a two letter suffix abbreviation for the binder supplier name and location.
  
 
===403.2.3 Field Adjustments of Superpave Mix Design===
 
===403.2.3 Field Adjustments of Superpave Mix Design===
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===403.3.1 Procedure===
 
===403.3.1 Procedure===
 
====403.3.1.1 Trial Mixtures====
 
====403.3.1.1 Trial Mixtures====
Test results and calculations required for asphaltic concrete trial mixtures are as shown in [[#Batching|Batching]] below. Test results and calculations shall be recorded through [[SiteManager]]. Standard test procedures are as follows:
+
Test results and calculations required for asphaltic concrete trial mixtures are as shown in [[#Batching|Batching]] below. Test results and calculations shall be recorded through AWP. Standard test procedures are as follows:
  
 
{| border="1" class="wikitable" style="margin: 1em auto 1em auto"
 
{| border="1" class="wikitable" style="margin: 1em auto 1em auto"
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===403.3.2 Sample Record===
 
===403.3.2 Sample Record===
 
====403.3.2.1 Trial Mixtures====
 
====403.3.2.1 Trial Mixtures====
The sample record shall be completed in SiteManager, as described in [http://contribute.modot.mo.gov/business/materials/pdf/vol_3/MMV3CONT.pdf Automation Section], and shall indicate acceptance, qualified acceptance, or rejection. Appropriate remarks, as described in [[106.20 Reporting|EPG 106.20 Reporting]], are to be included in the remarks to clarify conditions of acceptance or rejection. Test results shall be reported on the appropriate templates under the Tests tab.
+
The sample record shall be completed in AWP, as described in [https://epg.modot.org/forms/CM/AWP_MA_Sample_Record_General.docx AWP MA Sample Record, General], and shall indicate acceptance, qualified acceptance, or rejection. Appropriate remarks, as described in [[106.20 Reporting|EPG 106.20 Reporting]], are to be included in the remarks to clarify conditions of acceptance or rejection. Test results shall be reported on the appropriate templates under the Tests tab.
  
 
====403.3.2.2 Field Compacted Density Samples====
 
====403.3.2.2 Field Compacted Density Samples====
The sample record shall be completed in SiteManager, as described in [http://contribute.modot.mo.gov/business/materials/pdf/vol_3/MMV3CONT.pdf Automation Section], and shall include a notation in the remarks, "Material submitted for the determinations indicated". Test results shall be reported on the appropriate templates under the Tests tab.
+
The sample record shall be completed in AWP, as described in [https://epg.modot.org/forms/CM/AWP_MA_Sample_Record_General.docx AWP MA Sample Record, General], and shall include a notation in the remarks, "Material submitted for the determinations indicated". Test results shall be reported on the appropriate templates under the Tests tab.

Latest revision as of 10:17, 21 November 2024

Asphalt, Permeability
Report 2009
See also: Research Publications
Forms
QA/QC Checklist
Profiloqraph Report
QRGs
SuperPave Adjustments
Performance Testing Sample
AC Price Index Adjustments
Guidance for Asphalt Cement Price Index Adjustments
Related Information
Guidance for Administering and Planning Pavement Maintenance Responsibilities during Construction

403.1 Construction Inspection for Sec 403

403.1.1 Description (Sec 403.1)

There will be no commentary for sections in which the intent of the specifications, as written, is clear.

Design Levels (Sec 403.1.2)

At the contractor’s expense, a mix with the same size aggregate and one design level higher can be substituted for the mix required by the contract at the price of the lower mix. Care should be taken to assure that the material product codes reflect the mix actually placed on the roadway. The substitutions must be done uniformly and various design levels in the same lift will not be allowed.

403.1.2 Material (Sec 403.2)

See also Aggregate for Asphaltic Concrete, Bituminous Material and Asphalt Release Agents, Fiber Additives and Liquid Anti-Strip Additives for Materials information.

Fine Aggregate Angularity (FAA) (Sec 403.2.1)

Fine Aggregate Angularity (FAA) ensures a high degree of fine aggregate internal friction and rutting resistance. FAA provides an indication of the particle shape and is defined as the percent voids in loose, uncompacted fine aggregates. More fractured faces results in a higher void content in the aggregate. FAA is determined on the fine portion of the blended aggregate (passing the #8 sieve) in accordance with AASHTO T304 (Level 2 Aggregate Training). The minimum requirements, based on the design level of the mix, are given in Standard Specification Section 403.2.1.

Coarse Aggregate Angularity (CAA) (Sec 403.2.2)

Coarse Aggregate Angularity (CAA) ensures a high degree of coarse aggregate internal friction and rutting resistance. CAA is defined as the percent of coarse aggregates with one or more fractured faces. CAA is determined on the coarse portion of the blended aggregate (retained on the #4 sieve) in accordance with ASTM D5821 (Level 2 Aggregate Training). The minimum requirements, based on the design level of the mix, are given in Standard Specification Section 403.2.2.

Clay Content (Sec 403.2.3)

Clay content, or sand equivalency, is the percentage of clay-like material present in the aggregate. The higher the sand equivalent value, the less clay-like material present in the aggregate. Clay-like material can coat the aggregate surfaces and prevent the binder from adhering to the aggregate particles. Sand equivalency is determined on the fine portion of the blended aggregate (passing the #4 sieve) in accordance with AASHTO T176 (Level 2 Aggregate Training). The minimum requirements, based on the design level of the mix, are given in Standard Specification Section 403.2.3.

Thin, Elongated Particles (Sec 403.2.4)

This property, also known as flat and elongated, is the percentage of coarse aggregates that have a maximum to minimum dimension ratio of 5:1 or greater. Flat and elongated particles are undesirable because they have a tendency to break more easily than other aggregate particles. When an aggregate particle breaks, it creates a face that is not coated with binder, increasing the potential of the mix to strip or ravel. Also, the gradation of the mix becomes finer, which may be detrimental to the mix properties. Finally, a mix that contains flat and elongated particles may be difficult to place and compact. The percentage of flat and elongated particles is determined on the coarse portion of the blended aggregate (retained on the #4 sieve) in accordance with ASTM D4791 (Level 2 Aggregate Training). The maximum allowable percentage of flat and elongated particles for all mixes other than SP125xSM is given in Standard Specification Section 403.2.4.

SP125xSM Requirements (Sec 403.2.5)

In a Stone Matrix Asphalt (SMA) mix, the coarse aggregate will consist of crushed limestone and a hard durable aggregate, i.e. low Los Angeles Abrasion and absorption. Durable aggregate is generally either porphyry or steel slag but may be aggregates such as crushed gravel or quartzite. Mixtures designated as SMR, for rural interstates, may use 100% dolomite aggregates. SMA mixes have flat and elongated requirements for ratios of 5:1 and 3:1. The maximum allowable percentages of flat and elongated particles based on these ratios are given in Standard Specification Section 403.2.5.

Filler Restriction (Sec 403.2.5.1)

See Mineral Filler, Hydrated Lime, and Baghouse Fines in Plant Inspection.

Fibers (403.2.5.2)

Cellulose or mineral fibers, in accordance with Standard Specification Section 1071.4, must be used as a stabilizer in SMA mixes. Because the aggregate gradation of an SMA mix is gap-graded, fibers are used to increase the surface area of the mix and hold the binder in the mix. The fibers do not absorb the binder. The manufacturer, brand name, and dosage rate will be shown on the JMF. Fibers are proportioned by weight in both batch and drum plants. If an SMA mix is produced in a batch plant, the fibers can be added to the aggregate in the weigh hopper or in the pugmill. This can be done manually or mechanically with a metering device. If the fibers are added in the weigh hopper, aggregate from at least one hot bin must be discharged into the hopper before the fibers are added. If the fibers are added in the pugmill, the fibers must be added after the aggregate and before the binder. In either case, the dry mixing time shall be a minimum of 20 seconds and the wet mixing time shall be a minimum of 35 seconds. The mixing times and/or temperatures should be adjusted if a uniform mix is not produced. If an SMA mix is produced in a drum plant, the fibers can be added to the drum in loose or pelletized form. The fibers shall be uniformly and continuously metered into the mix. The metering system must be interlocked with the blending system. Pelletized fibers are added to the drum through the RAP inlet. Record all fiber shipments in the corresponding APIW. The inspector should verify that the manufacturer and brand name are included on the Pre-Acceptance List (PAL) and that the dosagerate meets the minimum requirements of Standard Specification Section 403.2.5.2. Fibers will be sampled in accordance with the PAL requirements and shipped to the Central Laboratory for testing. More information on the PAL requirements can be found in Standard Specification Section 106.12 and Control of Material.

Reclaimed Asphalt (Sec 403.2.6)

Both reclaimed asphalt pavement (RAP) and reclaimed asphalt shingles (RAS) are allowed in some mix types by specification but not all mix types. When RAP or RAS are allowed, the contractor chooses when and how much recycled material to utilize within the specification limits. Depending on how much RAP or RAS the contractor chooses to use, there may be additional requirements placed on the virgin binder by the specifications. Effective virgin binder is used to account for binder absorbed by the aggregates and is not available for blending with the reclaimed binder.

Reclaimed binder contribution is calculated using a spreadsheet provided on MoDOT’s website. When a mix design approval is based off of a blend chart binder grade or extracted binder grade, substitution of a different virgin binder may require additional testing to prove the specification requirements are met.

403.1.3 Composition of Mixtures (Sec 403.3)

Gradation (Sec 403.3.1)

The master range for the combined aggregate gradation of each mix type is given in Standard Specification Section 403.3.1. These master ranges apply to the final gradation of the aggregate, including filler materials, before the binder is added. During production, the combined aggregate gradation may be outside of the master range when the tolerances of Standard Specification Section 403.5.1 are applied.

Anti-Strip Agent (403.3.2)

See Liquid Anti-Strip Additives in Plant Inspection.

403.1.4 Job Mix Formula

The mix design procedure will be in accordance with Materials Inspection.

Approval (Sec 403.4.3)

No mix shall be produced or placed by the contractor or accepted for use by an inspector without an approved JMF. This includes mix transfers. The Materials Field Office (MFO) will give written approval. District Materials may approve mix transfers if the mix quantity per project is 250 tons or less provided the mix type and contract binder grade match what’s listed on the plan sheets or change order. In some extreme cases, approval may be verbal with written approval to follow. Occasionally, contractors may elect to place mix while the request is still pending. In this situation, contractors are proceeding at their own risk and should be so advised by an order record.

Job Mix Formula Modifications (Sec 403.4.4)

A new JMF will be required if a material source is changed or if unsatisfactory results are obtained. The exception for the new JMF requirement will be when a binder source change has been made to a supplier, previously provided by the contractor in the original JMF, for which an alternate JMF number has already been created. Unsatisfactory results may include a mix that fails to meet specifications (binder content, volumetrics, and/or density) or if the visual appearance of the mix is unacceptable. If a new JMF is required, the procedures outlined in Standard Specification Section 403.11 should be followed.

403.1.5 Mixture Production Specification Limits (Sec 403.5)

Intentional deviations from the JMF will not be permitted, except under the conditions set forth in Sec 403.11. The plant shall be operated in such a manner that the mix is produced as shown on the JMF. The specification tolerances are developed in an attempt to keep the mix as consistent as possible and to allow for some variation during production. However, these tolerances are not production limits. For example, if the target binder content is 5.0%, the binder content of the mix can range from 4.7% to 5.3% when the tolerances are applied. The contractor will not be allowed to produce the mix at 4.7% to save money.

Operating out of the specifications may reduce the contractor's pay and/or the pavement service life. When QC tests, either random or informational, are out of specification tolerances, the contractor should adjust the production to bring the mix back in. When QA tests are out of specification tolerances, the contractor should be notified immediately. The contractor is responsible for deciding when adjustments are made to control the mix. Some test properties may be allowed to deviate beyond specification limits occasionally, provided that adjustments are made and the following tests show that production is back within limits.

Production may be required to cease if the random QC or QA test results are either out of specifications far enough to indicate that the mix may be subject to failure or beyond the specification removal limits. Production should cease until verification that the problem has been corrected. An order record should be written, on the same day or the next day if paving occurs at night, describing the deficiency and the location and amount of mix affected. The contractor may elect to continue production in order to run more tests. If so, the order record should state that any mix produced after the order record was issued is at the contractor’s risk. Final disposition of the mix can then be made based on all tests and observations and may consist of acceptance at a reduced price or removal and replacement of unacceptable material.

Both QC and QA will use the following procedures to determine volumetrics of the mix and compliance with Standard Specification Sections 403.5.3 through 403.5.5. These procedures are discussed in greater detail in the Levels 1 and 2 Bituminous Training.

In situations where a retained sample must be tested, the following procedure should be used to reheat the sample. Heat the sample in an oven until the mix is workable. Take the mix out of the sample container (box, bucket, etc.) and spread it in a large pan or several smaller pans. Using this procedure, the mix will reach the molding temperature much quicker than it would if it were left in a mass in the sample container. Also, less aging of the mix occurs since the mix is in the oven for a shorter period of time. Once the mix has reached an acceptable temperature, quarter split the mix. The split portions to be used for making gyratory specimens shall then be heated to the compaction temperature. The entire suite of tests must be performed on a retained sample.

Gradation (Sec 403.5.1)

See Sieve Analysis in Plant Inspection. The gradation of the mix is not a pay factor item. However, it does have a significant influence on the volumetrics of the mix. Samples may be taken from the hot bins at a batch plant or from the combined cold feed at a drum plant. It is acceptable to determine gradation from the binder ignition sample according to AASHTO Standard Test Method T 308. Contractors should be allowed the option provided that the chosen method is spelled out in the Quality Control Plan. Gradations of extracted samples would be satisfactory as well. QC is required to sample the aggregate and perform a sieve analysis twice per lot. QA is required to independently sample the aggregate and perform a sieve analysis once per lot. These testing requirements are minimums and should be increased as necessary. Minor deviations outside the tolerances given in Standard Specification Sections 403.5.1.1 or 403.5.1.2, whichever is applicable, may be allowed if the test results indicate that the binder content, volumetrics, and density of the mix are satisfactory. If the test results are unsatisfactory, adjustments of the JMF, in accordance with Standard Specification Section 403.11, are necessary.

Stone Matrix Asphalt Tolerances (Sec 403.5.1.1)

The tolerances from the JMF for SMA mixes are given in Standard Specification Section 403.5.1.1.

Mixture Tolerance (Sec 403.5.1.2)

During production, the combined aggregate gradation must be within the following limits:

Percent Passing by Weight
Sieve Size SP250 SP190 SP125
1 ½ in. 100 -- --
1 in. 90-100 100 --
¾ in. 92 Max. 90-100 100
½ in. -- 92 Max. 90-100
3/8 in. -- -- 92 Max.
#4 -- -- --
#8 17-47 21-51 26-60
#16 -- -- --
#30 -- -- --
#50 -- -- --
#100 -- -- --
#200 1-7 2-8 2-10

Density (Sec 403.5.2)

See also Density in Plant Inspection Density Samples in Paving Operations. One sample per sublot will be taken for QC testing. QA will randomly test one of the samples from each lot to verify that a favorable comparison is obtained. These testing requirements are minimums and should be increased as necessary. SMA mixes shall have a minimum density of 94.0% with no upper limit. All other mixes shall have a density of 94.0 ±2.0%.

Shoulder Density (Sec 403.5.2.1) and Integral Shoulder (Sec 403.5.2.2)

If the shoulders and the traveled way are placed in the same pass (integrally), the cores will be taken on the traveled way. No cores will be taken on the shoulder. For example, if the paving width is 16’ with a 12’ travel lane and a 4’ shoulder, the shoulder will not be subject to density testing.

Asphalt Content (Sec 403.5.3)

QC is required to sample and test the mix for the binder content once per sublot and QA is required to independently sample and test the mix once per lot. These testing requirements are minimums and should be increased as necessary. During production, the binder content of the mix, as determined by sampling and testing, shall be within ±0.3% of the target listed on the JMF.

Voids in the Mineral Aggregate (VMA) (Sec 403.5.4)

QC is required to sample and test the mix for the VMA once per sublot and QA is required to independently sample and test the mix once per lot. These testing requirements are minimums and should be increased as necessary. The VMA of the mix shall be within –0.5% and +2.0% of the minimum required for the corresponding mix type (see Standard Specification Section 403.4.6.2).

The following table gives the ranges for each mix type:

Mix Type VMA Limits (percent)
SP250 11.5-14.0
SP190 12.5-15.0
SP125 13.5-16.0
SP095 14.5-17.0
SP048 15.5-18.0
SMA 16.5-19.0

Air Voids (Va) (Sec 403.5.5)

QC is required to sample and test the mix for the air voids once per sublot and QA is required to independently sample and test the mix once per lot. These testing requirements are minimums and should be increased as necessary. The Va for all mixes shall be 4.0 ±1.0%.

Tensile Strength Ratio (TSR) (Sec 403.5.6)

The TSR is used to evaluate the impact that water saturation and freeze-thaw cycles have on the strength of an asphalt mix. It can also be used to predict the susceptibility of the mix to stripping.

During production, loose mix samples will be taken and quartered as described in Mixture Production Specification Limits. TSR samples need to be taken from random locations. However, they should be taken whenever it is convenient to production, such as during a big gap between QC volumetric tests. By specification, sampling locations are from the roadway behind the paver, however, should the MoDOT inspector deem this an unsafe or impractical location, the sample may be taken from the plant. The QA sample(s) should be taken from the same point as the QC sample(s). If QC takes their sample from the plant, QA should take their sample from the plant also. This does not mean that QA should be taking their samples at the same time as QC. Two opposite quarters will be retained and the remaining two quarters will be mixed together and tested in accordance with AASHTO T283.

QC should obtain enough mix to retain a sample. QC will sample and test each mix at a minimum of once every 10,000 tons, or fraction thereof. QA will independently sample and test each mix at a minimum of once every 50,000 tons. The TSR sampling requirements are best described with an example. Suppose that 112,960 tons of SP190 are to be placed on a project. By specification, QC is required to take twelve samples and QA is required to take three samples. There are two possible scenarios for sampling this mix. QC may take eleven samples representing 10,000 tons each and a twelfth sample that represents the remaining 2,960 tons. Or QC may take ten samples that represent 10,000 tons each and two samples that represent the remaining 12,960 tons (6,480 tons each). Either scenario is acceptable. Likewise, QA may take two samples representing 50,000 tons each and a third sample that represents the remaining 12,960 tons. Or QA may take one sample that represents 50,000 tons and two samples that represent the remaining 62,960 tons (31,480 tons each). The contract quantity may be used to approximate sample 1 locations.

MoDOT should collect at least 250 pounds of asphalt mix for the QA sample, 125 pounds is retained by the RE and the other 125 pounds is sent to the Central Laboratory (typically) in 4 – 13” x 13” x 4.5” boxes for QA testing. Each box must be labeled on one side with the AASHTOWARE Project (AWP) ID, Mix Type, VMA Limits (percent) number and the mix number. An AWP record must be created for each sample, which must include all required information, the mix number, sample date, and the represented tonnage. The represented tonnage is explained in the example in the preceding paragraph. It is recommended to include the lot and sublot to the AWP record as additional information.

Additional information that may be included in the AWP record is the Gmm from the sublot that the sample was taken in (QC or QA) and the specimen weight that QC has been using. The specimen weight may be different from that shown on the JMF because of bin percent changes, etc. This information is helpful because it results in less trial-and-error for the Central Laboratory.

In the laboratory, a minimum of six specimens are compacted to a height of approximately 95 mm. The air voids of the specimens are calculated. For all mixes other than SMA, the air voids must be within 7.0 ±0.5%. For SMA mixes, the air voids must be within 6.0 ±0.5%. Half of these specimens are saturated, frozen, and thawed. These are the conditioned specimens. The degree of saturation of the conditioned specimens is also calculated. The remaining specimens are unconditioned. Then, the indirect-tensile strength of all of the specimens is determined. Therefore, the TSR is the ratio of the average tensile strength of the conditioned specimens to the average tensile strength of the unconditioned specimens.

A favorable comparison will be obtained if the QC and QA test results are within 10% of each other. The contractor’s pay will be adjusted in accordance with Standard Specification Section 403.23.5 based on the QC test results. For example, if the QC TSR is 95% and the QA TSR is 93%, a favorable comparison has been obtained and the contractor will receive a 3% bonus. However, if the difference is greater than 10%, the field office should be consulted. The field office will evaluate the air voids and saturation levels. The raw data should be collected from QC and forwarded to the field office for comparison in order to determine whether it will be necessary to proceed with 3rd party testing. QC and QA retained samples should be kept for an extended period of time so that they may be used during dispute resolution, if necessary.

The QC data should be reported in AWP (Test - SAA402AB). Contractors may report their own test results using the TSR Contractor Reporting Excel to Oracle Spreadsheet available on the MoDOT Quality Management website. Furthermore, this information is quarried regularly and, provided that a favorable comparison is reached, used to signal the appropriate time for disposal of the remaining TSR sample at the Central Lab.

Aggregate Properties (Sec 403.5.7)

The aggregate consensus tests (Fine and Coarse Aggregate Angularity, Clay Content, and Thin, Elongated Particles) are performed on the blended aggregate. The aggregate will be sampled from the combined cold feed whether dealing with a drum-mix plant or a batch plant.

For each mix that is produced, QC shall sample the aggregate and perform the consensus tests once every 10,000 tons with a minimum of one per mix per project. QA will independently sample the aggregate and perform the consensus tests once per project. QA should also test a minimum of one QC retained sample per project. For large projects, enough QC retained samples should be tested to ensure that QC is performing the tests correctly. These testing requirements are minimums and should be increased as necessary. During production, the following tolerances are applied (see Standard Specification Sections 403.2.1 through 403.2.5 and Consensus Testing).

Property Tolerance
FAA 2% below the minimum
CAA 5% below the minimum
Clay Content 5% below the minimum
Thin, Elongated Particles 2% above the maximum

Moisture Content (Sec 403.5.9)

See also Asphalt Binder Content in Plant Inspection.

Contamination (Sec 403.5.10)

See Material Acceptance in Paving Operations.

403.1.6 Field Laboratory (Sec 403.6)

See Field Laboratory in Plant Inspection.

403.1.7 Bituminous Mixing Plants (Sec 403.7)

See Batch Plants and Drum-mix Plants in Plant Inspection.

403.1.8 Hauling Equipment (Sec 403.8)

See Haul Trucks in Paving Equipment.

403.1.9 Pavers (Sec 403.9)

See Pavers in Paving Equipment.

403.1.10 Construction Requirements (Sec 403.10)

Weather Limitations (Sec 403.10.1)

See Weather Conditions in Paving Operations.

Substitutions (Sec 403.10.2)

The intent of this specification is that there be no additional cost to MoDOT as a result of the allowed substitution. Payment should be made for the mixture originally set up in the contract. Material codes for the substitute mixture should be entered in AWP on the line for which payment is being made. For example: Assume that the contractor wishes to use SP125 in lieu of the SP190 that is set up in the plans and that the SP125 has a higher contract unit price. Payment for the substitute mix should be paid as SP190. Material codes for SP125 should be added to the line for SP190 so that material quantities can be tracked and documented.

403.1.11 Field Adjustments of Job Mix Formulas (Sec 403.11)

When test results indicate that the mixture does not meet the specification requirements, the contractor may adjust the JMF in the field. The total binder content may be adjusted by a maximum of 0.3% from the original JMF. Virgin aggregate fractions may be adjusted as necessary except that they may not be eliminated entirely unless they are 5% or less of the original JMF. Consult the Field Office before eliminating virgin aggregate fractions greater than 5%. The addition of any new fraction will require a new mix design. The RAS fraction may be adjusted by a maximum of 3% from the original JMF. The RAP fraction may be adjusted by a maximum of 15% from the original JMF.

Any time that adjustments are made to the plant percentages, including the hot bin percentages, the inspector and RE must be notified immediately. The resulting combined aggregate gradation of the adjusted mix must be within the master range for that particular type of mix (see Standard Specification Section 403.3.1). During production of the adjusted mix, the combined aggregate gradation must be within the limits of Standard Specification Section 403.5.1.1 or 403.5.1.2, whichever is applicable. If the cold feed settings have been adjusted, the composition of the mix has been changed. Therefore, the new bulk specific gravity of the combined aggregate (Gsb) must be calculated using the adjusted cold feed percentages so that the VMA can be accurately calculated during production. If an adjustment from the job mix is made, the contractor should be required to recalculate the porphyry/Non-carbonate percentage to assure that is still meets the contract requirements. The Durable Aggregate Calculation spreadsheet has been developed to assist in checking the contractor’s calculation. If the percentage of RAS or RAP is increased from the original JMF the percent virgin effective binder replacement (Pbv) should be recalculated to assure compliance with section 403.2.5 of the Standard Specifications. The Pbv should also be recalculated when the percent of binder in the RAP changes as determined by Section 403.19.3.

Field Mix Redesign (Sec 403.11.1)

If a new mix design is required, the contractor may redesign the mix in the field. All requirements of Standard Specification Section 403.4 will apply. A representative sample of a minimum of 50 lbs. shall be submitted with the new mix design to the Central Laboratory for verification testing.

Approval (Sec 403.11.1.1)

Construction and Materials will grant approval and assign a new mix number to the mix upon successful verification.

Resume Production (Sec 403.11.1.2)

No mix shall be produced or placed by the contractor or accepted for use by an inspector without approval of the new field mix design from the Materials Field Office. Once the mix design has been approved, production can resume.

403.1.12 Application of Prime or Tack (Sec 403.12)

See Surface Preparation in Paving Operations

403.1.13 Spreading and Finishing (Sec 403.13)

Standard Specification Section 403.13 puts restrictions on the minimum compacted lift thickness. See also Spreading and Hand Spreading in Paving Operations.

Paving Widths (Sec 403.13.1)

Standard Specification Section 403.13.1 puts restrictions on the paving widths and lengths if the pavement is constructed under traffic.

Segregation (Sec 403.13.2)

See Material Acceptance in Paving Operations.

Release to Traffic (Sec 403.13.3)

Traffic must not be allowed on the pavement until its surface temperature is 140°F or less. Otherwise, the traffic will overconsolidate the mat while it is still hot and cause the pavement to be more susceptible to rutting during its early life.

Draindown (Sec 403.13.4)

See Material Acceptance in Paving Operations.

Shoulder Substitutions (Sec 403.13.5)

The same Superpave mix that was used on the travel lanes may also be used on the shoulders. The density shall be in accordance with Standard Specification Section 403.5.2.1 if nonintegral shoulders are placed or 403.5.2.2 if integral shoulders are placed.

403.1.14 Spot Wedging and Leveling Course (Sec 403.14)

See Surface Preparation in Paving Operations.

403.1.15 Compaction (Sec 403.15)

Vibratory rollers shall be operated in static mode when the mix temperature is below 225°F. Pneumatic tire rollers shall not be used on SMA mixes. See Compaction in Paving Operations.

Rolling (Sec 403.15.1)

Defective Mixture (Sec 403.15.2)

See Material Acceptance in Paving Operations.

Non-traffic Areas (Sec 403.15.3)

Mixes used for non-traffic areas (medians, shoulders, and similar areas) shall be compacted to the required density. Density testing for Superpave mixes placed on the shoulders may be waived, at the RE’s discretion, once the contractor has established a roller pattern that has been shown to produce the required density. This means that cores must be taken until the RE is confident that density will be obtained consistently with this roller pattern. If testing has been waived, density must still be obtained and coring may be necessary to ensure that it is. Density testing will again be required at any time that changes in the material, mix temperatures, or roller pattern are made. The intent of the specification is to attain the required density on the shoulders, particularly on full depth pavements. On resurfacing projects, the existing shoulders may not be able to withstand the compactive effort needed to attain density. In this situation, the RE can relax the density requirements, but only to the point that conditions will allow. In other words, get the most density possible without tearing up the shoulders.

Density Measurement (Sec 403.15.4)

See Density in Plant Inspection and Density Samples in Paving Operations.

403.1.16 Joints (Sec 403.16)

See Transverse Joints and Longitudinal Joints in Paving Operations.

Joint Composition (Sec 403.16.1)

Unconfined joint density should be measured on the first pass in the 6 inches adjacent to the vertical edge (if the contractor is taking 6-inch density cores the location should be adjusted as necessary to avoid the vertical face). After the second paver pass closes the unconfined joint, the entire width of the lane may be used for random density testing, including the entire wedge portion of a notched wedge section.

All mixes, except for SMA, shall have a minimum unconfined joint density of 90.0%. SMA mixes shall have a minimum unconfined joint density of 92.0%. Confined joint densities will be evaluated with the remainder of the mat and must meet the density requirements of Standard Specification Section 403.5.2.

403.1.17 Quality Control (Sec 403.17)

Under QC/QA, the contractor performs quality control (QC) testing. The contractor is paid based on the results of the randomly located QC tests for Superpave mixes. Beyond random QC tests, quality control by the contractor consists of constantly monitoring materials integrity, mix production and laydown operations to ensure overall acceptability.

Asphalt Test Results (Sec 403.17.1.1)

A copy of all random QC test results shall be furnished to the QA inspector no later than the beginning of the day after testing has been performed. All raw data and printouts must be included with the testing records. Raw data consists of all weights, measurements, etc. used to arrive at the final test results. Printouts include the gyration/height data from the gyratory compactor and the asphalt content ticket from the binder ignition oven or nuclear gauge. The QC testing records must be made available to the QA inspector at all times.

It is QC’s responsibility to take appropriate action if unsatisfactory mix is being produced. This may include making adjustments to the plant to bring the mix back into specification, sampling the mix from the roadway and performing informational testing, removing mix from the roadway, etc.

Informational Tests

An informational test is a test that QC may perform between random testing to determine whether or not the mix is within specifications. Informational testing is not required and may be performed at any time and at any frequency. Generally, informational testing will be performed early in the production period. The informational test may not be completed in full. For example, QC may only compact the gyratory specimens. Doing so will yield specimen heights and the contractor may or may not make production adjustments based on these heights. Informational test samples must be clearly marked as such if they are tested and stored in the field laboratory.

QC is not required to provide the QA inspector with informational test results, since informational tests cannot be used in the QC process to determine pay factors, The timing of random number locations being given to the contractor, typically 100 to 150 tons in advance, is meant to protect the integrity of the statistical sampling process. QA always has the option of taking its own informational samples.

Informational test data may be used to determine asphalt removal limits if it is adequately documented. It should not be used for QLA under any circumstances. To be considered adequately documented the following criteria should be met:

  • The gyratory pucks should be clearly identified and labeled and made available for verification.
  • The gyratory printout should be available.
  • The printout from the AC test should be available.

If the preceding conditions are met and the gyratory specimens are used to troubleshoot the placement, the specimens can then be weighed and bulked to determine the volumetric properties. Data from informational tests is approximate. Its only legitimate use to the QA inspector is to help determine the point on the roadway where the mixture transitioned either above or below the removal limits. We don’t want to remove acceptable mix or leave unacceptable mix in place.

Removal Limits

As an example of how informational tests may be used to designate removal limits of failing QC samples, the following situation is provided. The random QC sample shown in the diagram below fell late in sublot ‘a’ and test results indicated that voids were below the limits for removal. By specification sublot ‘a’ should be removed. By the time the test results were available and corrective action was taken, the contractor had crossed into sublot ‘b’. Assuming that mix properties were acceptable at the beginning of sublot ‘a’, the actual limits of unacceptable material are indicated by the dashed lines.

Adhering strictly to the specification, it is likely that acceptable material early in sublot ‘a’ will be removed, and it is also likely that unacceptable material early in sublot ‘b’ will be left in place. An adequately documented informational test may be used to zero in on the transitions out of, and back into, acceptable mix. It doesn’t matter that the data is approximate, only that it is above the limit for removal.

Random tests within removal limits are to be replaced by an equal number of random QC test locations, regardless of tonnage. For example, if 750 tons replace an area covered by two random tests, the new tests would be randomly chosen in each 375 ton portion of the replaced mixture.

The resident engineer has the option to determine removal limits based on puck height, provided that the informational test data is consistent with previous production.

When the random QC density core is below or above the removal limits, additional cores may be cut using the following procedure to determine the area of removal. Locations 250’ parallel to the centerline, ahead and back of the failing QC location, will be determined by the engineer. Cores will be cut in these locations and tested. If both sets of cores are not below or above the removal limits, the 500’ section will be removed and replaced with acceptable material and a new random QC core will be cut with-in the new pavement. If either set of the cores are below or above the removal limits, the whole sublot or the area in which the density core represents is subject to removal.

Any sublot of material with air voids in the compacted specimens less than 2.5 percent shall be evaluated with Hamburg testing and removed and replaced with acceptable material by the contractor if the rut depth is greater than 14.0 mm.

Inertial Profiler Test Results (Sec 610)

Surface of the pavement should be thoroughly tested with an inertial profiler or straightedge as required by Sec 610. The procedures for testing with an inertial profiler and analyzing the results with the ProVAL software program are set forth in EPG 106.3.2.59 TM-59, Determination of the International Roughness Index.

Bituminous Quality Control Plan (Sec 403.17.2)

The contractor documents the QC method with a quality control plan (QC Plan*). The QC plan for Superpave mixes shall include the contact information of the contractor’s QC representative, lot and sublot sizes and how they will be designated, the test method for determining asphalt binder content, the number of cores to be cut for density determination, and the independent third party for dispute resolution. The QC plan is approved by MoDOT Construction and Materials and used as a contract document during mix production. Contractor technicians who perform materials testing shall be certified through the MoDOT Technician Certification Program (TCP).

  • Note*: A QC Plan is not required for bituminous base (BB) and pavement (BP) mixes.

Up to 3 cores are allowed at each random location, but only if spelled out in the QC plan. In the drawing below, the cylinder represents the station and offset of the random location. Best management practice is for QA to mark that location on the pavement. The first density core should have that marking on it. Any additional cores should be taken along a straight line, parallel to the centerline, within 1 foot either side of the random location.

Plant Calibration (Sec 403.17.2.2)

See Bituminous Mixing Plants.

Retained Samples (Sec 403.17.2.3)

QC must retain the portion of each sample that is not tested after the sample has been reduced to testing size. This includes gradation, consensus, TSR, and volumetrics samples. The retained samples must be clearly identified in accordance with Standard Specification Section 403.17.2.3 and stored in the field laboratory for a minimum of 7 days. Also, all cores must be retained for a minimum of 7 days. Notwithstanding the 7 day minimum, retained samples should not be discarded until all comparison issues with the lot are resolved. If space at the field lab is an issue, the sample should be stored at the project office.

There is no legitimate reason for unidentified samples to be in the field laboratory. The QA inspector should insist that all test specimens in the field laboratory be marked as soon as they are cool enough. The identifying mark should be permanent, unique, and indicate what the sample is.

When running a QC split sample, the comparisons should be within the tolerances shown in the following table:

Loose Mix Property Tolerance
Gmb 0.010
Gmm 0.010
AC % 0.1%

Gradation Sample (Sec 403.17.2.3.1)

QC will retain the portion of their gradation sample that is not tested. This includes the sample of the combined cold feed from a drum plant and all hot bin samples from a batch plant.

Loose Mix Sample (Sec 403.17.2.3.2)

A loose mix sample consisting of roughly 100 lbs. will be taken from the roadway behind the paver, in accordance with AASHTO T168, at the required frequency. The sample will be thoroughly mixed and quartered in accordance with AASHTO R47, or with an approved splitting/quartering device. Two opposite quarters will be retained for testing during the dispute resolution process, if necessary. The remaining two quarters will be mixed together and quartered again.

The required weight of mix, as listed on the JMF, will be taken from one quarter and used to compact a specimen in accordance with AASHTO T312. The mix will be compacted to Ndes gyrations while the mix temperature is within the molding range listed on the JMF. Using the opposite quarter, follow the same procedure for the second specimen. The Gmb of each specimen will be determined and the average will be used to calculate the air voids Va and the voids in the mineral aggregate (VMA). By specification, a minimum of two compacted specimens must be used to calculate these properties.

A third quarter will be used to determine the Gmm of the mix in accordance with AASHTO T209. The minimum sample size for each type of mix can be found in the training manual. This property is used to calculate the Va and density. The volume of the sample, which is needed in the calculation, can be determined by either the weigh-in-air method or the weigh-in-water method. The weigh-in-air method consists of weighing the sample and container (with the lid) completely filled with water in air. The weigh-in-water method consists of weighing the sample and container (without the lid) completely submerged in water.

The remaining mix should be mixed together and quartered again. To determine the binder content using the nuclear gauge, enough mix should be taken from opposite quarters. The required weight of mix is listed on the JMF. A moisture content sample should be taken from the same quarters. To determine the binder content using the binder ignition oven, enough mix should be taken from one quarter. The minimum sample size for each type of mix can be found in the training manual. A moisture content sample should be taken from the same quarter. Sometimes the ignition oven may not shut itself off. The oven may be shut off manually as long as 3 consecutive readings show less than 0.01% loss. The sample should be examined to assure that a complete burn has been achieved. This will be considered a valid test.

Quality Control Laboratory (Sec 403.17.3)

The contractor is required to provide an appropriately equipped QC laboratory, however, it is not required to be at the plant. The contractor is also required to provide office space at the asphalt plant for the QA inspector to work on records and reports. Usually, these two requirements are met with one structure, but not always. The intent of the specification will be met if the QA inspector is provided with suitable facilities at the plant, but the lab is located offsite at another location, such as between the jobsite and the plant. The laboratory should have internet access in the event that cell phone service is not available.

Calibration Schedule (Sec 403.17.3.1)

Calibrations and verifications of the testing equipment are very important. If the equipment has not been calibrated or verified as required, false test results may be obtained. The maximum intervals are given in Standard Specification Section 403.17.3.1. These frequencies are taken from the AASHTO test methods and/or the manufacturer’s recommendations.

Calibration Records (Sec 403.17.3.1.2)

Periodically, the QA inspector should check the QC calibration records to ensure that the equipment has been calibrated or verified in accordance with Standard Specification Section 403.17.3.1.

403.1.18 Quality Assurance (Sec 403.18)

Assurance Testing (Sec 403.18.1)

Under QC/QA, MoDOT performs quality assurance (QA) testing. QA testing is used to verify the QC results. MoDOT is also responsible for independent assurance sampling (IAS) to verify that both QC and QA are performing the testing correctly.

All QA samples will be at independent random locations from QC. Not testing at random locations introduces statistical bias that is not in the interest of either MoDOT or the contractor. As with informational QC tests for the contractor, the MoDOT inspector may select specific locations for informational QA loose mix or core samples at any time if there is concern about a problem area, however, these may not be used for PWL calculations.

For volumetric testing, QA must sample enough loose mix material to retain an adequate amount for a second test. This retained sample, as with the QC retained sample, may be used during dispute resolution. QA will randomly sample the mix from the roadway once per lot and perform volumetric testing. At the beginning of the project, QC and QA should be given the opportunity to witness each other’s sampling and testing procedures. Any discrepancies should be immediately resolved at the project level, if possible. QA should test a QC retained volumetric sample once per day to ensure that both QC and QA are testing correctly. These samples should also be chosen at random (do not consistently test the retained sample from the same sublot every lot or develop a pattern).

For density testing, QA cores shall also be randomly located within a sublot at a frequency of one per lot. However, in the interest of public safety a random QA core test location, such as one in the middle of a busy intersection, should be moved to the closest safe location at the same random transverse offset. When both QC and QA are confident in each other’s testing procedures and favorable comparisons have been obtained on the retained samples, testing of the QC retained volumetric samples may be performed at a reduced frequency as determined by the MoDOT inspector. QA should test a QC retained gradation sample at a minimum of once per week. A minimum of one QC retained consensus sample should be tested per project. QA test results will be furnished to the contractor no later than the day after testing has been performed. A QA/QC Checklist is attached.

QA Test Type & Frequency
QA Test Type Minimum By Spec Early in Project Later in Project
Random QA for PWL 1/4 sublots 1/4 sublots 1/4 sublots
QC Split 1/week 1/day At a reduced frequency as determined by the MoDOT inspector

For single lift overlays and small quantity, QA cores shall be cut in the same location as the QC core.

QA Core Chain of Custody (Sec 403.18.2)

The roadway inspector should ensure that the QA density cores taken from the roadway are the same ones tested in the lab. The preferred procedure is for a MoDOT inspector to take possession of the cores as soon as they are cut and deliver them directly to QA at the plant, so that testing can proceed without delay. When job circumstances make this procedure impractical and the contractor has to deliver the core, the roadway inspector should dry the core with a paper towel and mark the side with identifying marks, including lot and sublot, using a permanent felt-tipped marker. Regardless of who delivers the QA core to the lab, the core shall be placed in a tamper proof bag.

Aggregate Comparison (Sec 403.18.3)

A favorable comparison will be obtained when the independent QA sample(s) meets specifications. In addition, the QA test results of a QC retained sample must be within the following tolerances from the QC test results:

Property Percentage Points
¾ in. sieve and larger ±5.0
½ in. sieve ±5.0
3/8 in. sieve ±4.0
#4 sieve ±4.0
#8 sieve ±3.0
#16 sieve ±3.0
#30 sieve ±3.0
#50 sieve ±2.0
#100 sieve ±2.0
#200 sieve ±1.0
CAA ±5.0
FAA ±2.0
Clay Content ±5.0
Thin, Elongated Particles ±1.0

If a favorable comparison is not obtained, dispute resolution procedures should be initiated.

403.1.19 Acceptance of Material (Sec 403.19)

Random Numbers (Sec 403.19.1)

All random numbers for QC loose mix samples and cores shall be generated prior to the start of the project for every four sublots. A printout of those numbers will be sealed in an envelope, which will be signed and dated by both QA and QC parties. The QA inspector will keep the envelopes in his/her possession in a secure location. The envelope for every four sublots will be provided to QC at the end of the previous four sublots.

It is critical that QC (and QA) samples be taken at random locations, because any manipulation of the locations introduces bias. QC test results are used to statistically define a population of data and bias causes inaccuracy in that statistical calculation. Random numbers shall be generated by using the Asphalt Random Locations spreadsheet, in order to eliminate any question of bias. MoDOT inspectors can locate the Asphalt Random Locations sheet on the internal site.

QC samples that are used to determine the pay factors must be taken at the locations designated by the random numbers, unless circumstances warrant relocation. This could include close proximity to another QC sample location in the same production period (when QC is at a critical point in testing the previous sample), areas where mix must be placed by hand, etc. In these cases, using good judgment, QA has the authority to separate random samples by up to 200 tons. QC and QA need to work together in good faith to make this process run smoothly.

QC should be notified of the core location after rolling has been completed. QC should be notified of the loose mix sample location approximately 100 to 150 tons before the test. The intent is to give QC enough time to conclude any ongoing tests and collect the next samples. When the sampling for every four sublots is completed, the envelope for those sublots will be opened to demonstrate that the random numbers were not manipulated during production.

The independent QA sample must be taken at the location designated by a random number unless circumstances warrant relocation. This could include close proximity to a QC sample location in the same production period, areas where mix must be placed by hand, etc. If necessary, the random samples may be separated by 200 tons. The QA inspector shall place and seal the QA core in a tamper-proof bag immediately after extraction and mark the bag label with the project number, lot number, location and inspector signature. The test results from the independent QA sample will be compared to the QC test results to determine if the QC test results adequately define the characteristics of the entire lot. However, QA may take additional samples to determine if an area of concern complies with the specifications. The test results of these additional samples will not be compared to any QC test results.

Lots (Sec 403.19.2)

For the purposes of pay factor determination, the mat will be divided into lots with a minimum of 4 sublots per lot. The maximum sublot size is 1000 tons. If a full lot cannot be completed, the extra sublots will be added to the previous full lot and the pay factors will be determined on the large lot. If there is no previous lot, the mix will be treated as small quantities and Standard Specification Section 403.23.7.4.1 will apply.

If the target binder content is adjusted from the original JMF, a new lot shall begin. This will ensure that the binder content pay factor will represent the population of the adjusted mix. If the cold feed settings are adjusted from the original JMF alone, a new lot is not required. Adjusting the cold feed settings will change the Gsb and, therefore, the VMA of the mix. However, the VMA specification limits are based on the type of mix (see Voids in the Mineral Aggregate (VMA) (Sec 403.5.4) and do not change. The VMA is required to be within this range, even if changes are made to the JMF. A new lot sequence shall begin when a new mix design is established. The limits of adjustment can be found in Standard Specification Section 403.11.

Test and Pay Factor Items (Sec 403.19.3)

Regarding Note 'b', one core equals one sample and the results will be used to determine the density pay factor for the corresponding sublot. However, if stated in the QC Plan, a maximum of two additional cores may be taken per sublot. This gives a maximum total of three cores per sublot. One core must be taken at the location selected by random numbers. The remaining cores must be taken at the same transverse offset within one foot longitudinally of the location selected by the random numbers. If more than one core is taken per sublot, all of the cores will be combined into one sample. This means that the average density of the cores will be used to determine the density pay factor for the corresponding sublot.

Test Method Modification (Sec 403.19.3.1)

Binder Ignition Modification (Sec 403.19.3.1.1)

This specification adjusts the temperature of the binder ignition oven due to the breakdown of certain aggregate formations as a result of intense heat.

Rice Test (Sec 403.19.3.1.2)

If the absorption of any aggregate fraction used in the mix is greater than 2.0%, AASHTO T209 must be modified in accordance with Standard Specification Section 403.19.3.1.2. This procedure is called the dry-back method. The final surface-dry weight will be recorded in the APIW as “A2”. If necessary, the dry-back method should be performed on all samples taken in the first lot of mix produced. If the initial Gmm and the dry-back Gmm of a sample are within 0.002 of each other in all sublots of the first lot, the dry-back may be reduced to every fourth sublot. Otherwise, the dry-back will be required every sublot.

Miscellaneous Applications (Sec 403.19.3.2)

Small Quantities (Sec 403.19.3.2.1)

A mix that requires less than 4000 tons on a project is referred to as small quantities. Testing frequencies will be as stated in Standard Specification Section 403.19.3.2.1(b). If a project is initially setup with less than 4000 tons, pay factors will not be determined unless an adjustment is made to the approved QC plan before production begins. If a project is initially setup with more than 4000 tons but less than 4000 tons are placed, pay factor determination is not required and Standard Specification Section 403.23.7.4.1 will apply.

Dispute Resolution (Sec 403.19.4)

The vast majority of issues between QC and QA can be resolved by consulting the QC Plan, the Test Method or the contract documents. Dispute decisions should always be timely and made at the lowest appropriate level. However, if a dispute cannot be resolved within a few hours of taking these initial steps, it should be escalated.

Occasionally, the QC test may not represent the population or, due to individual differences in sampling and testing procedures, the QA and QC test results may not compare within the required limits. One of the first steps in resolution could be an immediate computation check, comparison of sampling and testing procedures, or split sample retests. Testing of the QC split sample or joint sampling and testing could determine if variations in the mix production or sampling and testing procedures are responsible for the differences. If resolution is not possible at the project level, either party may request that the approved independent third party test the mix. Third party test results will be binding upon both parties. The party whose results were incorrect will pay for the third party testing. Third party testing is costly and time consuming and should only be used when project level reconciliation is not possible.

403.1.20 Method of Measurement (Sec 403.22)

Weight Determination (Sec 403.22.1)

If a batch plant is used to produce the mix, the weight of the load will be determined by the batch weights. If the mix is produced in a drum plant, the weight of the load will be determined by weighing each load of mix. This can be accomplished with either a silo scale or a truck scale. These individual load weights will be added together for the total tonnage accepted for the project and rounded to the nearest 0.1 ton.

Full Depth (Sec 403.22.2)

(Sec 403.22.2.1)

The final driving surface area (length multiplied by width) of the pavement will be used as the area of all underlying lifts and courses. Any mix that is placed outside of this area, including the mix used to construct the 1:1 slope, will not be directly paid for.

(Sec 403.22.2.2)

Full depth pavements will be paid for by the square yard. If authorized changes are made to the contract quantity during construction or if errors are found in the contract quantity, the applicable completed pavement will be measured to the nearest 0.1 yd2. The revision or correction will be added to or deducted from the contract quantity. If no changes are made or errors found, the pavement will not be measured and the contractor will be paid for the quantity of mix as shown in the contract.

Alternate Overlay (Sec 403.22.3)

An overlay project may be bid as Portland cement concrete or asphalt.

Field Established Quantity (Sec 403.22.3.1)

The field established plan quantity is the tonnage of mix that is determined from the set or adjusted profile. This will be the contract quantity for an asphalt overlay.

Overlay Measurement (Sec 403.22.3.2)

Overlays will be paid for by the ton. If authorized changes are made to the contract quantity during construction, the applicable completed pavement will be measured to the nearest 0.1 ton. The revision will be added to or deducted from the contract quantity. If no changes are made, the pavement will not be measured and the contractor will be paid for the quantity of mix as shown in the contract.

Pavement Testing (Sec 403.22.4)

See Density Samples in Paving Operations.

403.1.21 Basis of Payment (Sec 403.23)

Aggregate Variation (Sec 403.23.1)

The specific gravity of the aggregates used in the mix may fluctuate because of a variation in the quality of the rock within the quarry ledge. The gradation of the aggregate may also cause some fluctuation. However, this contribution is usually negligible. Because of such fluctuations, the quantity of aggregate used in the mix may vary from the quantity specified in the contract. Since this is expected and unavoidable, the contract unit price will not be adjusted.

Compacted Samples (Sec 403.23.2)

The cost of cutting QC cores is included in the contract. Therefore, no direct payment will be made. QA samples will be paid for at $75.00 per sample, per Standard Specification Section 109.15. If one QA core is cut per location, that core is equal to one sample. If more than one QA core is cut per location, the test results will be averaged and those cores will equal one sample.

Smoothness Adjustment (Sec 610.5)

Diamond Grinding (Sec 403.23.4.1)

Areas of the final driving surface that must be corrected by diamond grinding will be considered as a marred surface (Sec 610.5.3). A tack coat will not be applied to these areas. No direct payment will be made for diamond grinding.

Tensile Strength Retained Adjustment (Sec 403.23.5)

The tonnage represented by each QC TSR sample is subject to a pay adjustment that depends on the test results. The adjustments to the contract unit price are given in Standard Specification Section 403.23.5.

Continuing with the sampling example in Tensile Strength Ratio (TSR) (Sec 403.5.6), the contractor takes ten samples that represent 10,000 tons each. The last two samples represent 6,480 tons each. The contractor’s test results are shown in order in the table below. The price per ton is $35.00. The contract adjustment is calculated as follows:

Contract Adjustment = ((Percent of Contract Price-100)/100) * Price/ton * Tons
TSR Tonnage Percent of Contract Price Contract Adjustment (Bonus/Deduct)$
84 10,000 100 0
87 10,000 102 7,000
88 10,000 102 7,000
92 10,000 103 10,500
86 10,000 102 7,000
83 10,000 100 0
81 10,000 100 0
76 10,000 100 0
74 10,000 98 -7,000
80 10,000 100 0
78 6,480 100 0
85 6,480 102 4,536
Total 112,960 20,036

The Pay Factor Worksheet will automatically calculate the contract adjustment once the appropriate information has been entered. The contractor’s TSR results should be recorded in the Pay Factor Worksheet that corresponds with the lot that the sample was taken in.

Density Adjustment (Sec 403.23.6)

QC will take one unconfined longitudinal joint core per sublot, as specified in the QCP. These cores will be taken within 6 in. of the unconfined longitudinal joint. Unconfined joint cores can either be located at the same longitudinal location as the corresponding mat density cores or separate random numbers can be generated. The test results for each lot will be averaged to determine compliance with the specifications. Pay adjustments will be in accordance with the following table and will be applied to the corresponding tonnage represented by the core(s):

Longitudinal Joint Density (Percent of Gmm) Pay Factor (Percent of Contract Unit Price)
For all SP mixtures other than SP125xSM
90.0 to 96.0 inclusive 100
96.1 to 96.5 or 89.5 to 89.9 inclusive 90
96.6 to 97.0 or 89.0 to 89.4 inclusive 85
97.1 to 97.5 or 88.5 to 88.9 inclusive 80
97.6 to 98.0 or 88.0 to 88.4 75
Above 98.0 or Below 88.0 Remove and Replace
For SP125xSM mixtures:
≥92.0 100
91.5 to 91.9 inclusive 90
91.0 to 91.4 inclusive 85
90.5 to 90.9 inclusive 80
90.0 to 90.4 inclusive 75
Below 90.0 Remove and Replace

If pay reductions are necessary, the lower adjusted contract unit price of the PWL or the unconfined joint density adjustment will apply to the corresponding tonnage. For example, assume that the lot size is 4000 tons and that 1000 tons in the lot has an unconfined joint. The total pay factor for the lot due to volumetric testing is 105%. A longitudinal joint core is taken as required and the pay factor due to the unconfined joint density is 90%. As a result, a 10% reduction to the contract unit price will be applied to the 1000 tons represented by the unconfined joint and a 5% bonus will be paid for the remaining tonnage in the lot (3000 tons). On the other hand, if the pay factor due to the unconfined joint density were 100%, the 5% bonus would be paid for the entire lot. Longitudinal joint density is very important and this is an attempt to ensure that density is achieved. If it is not, the joint will ravel. Longitudinal joint core density testing will be waived if the contractor elects to mill off 6” of the unconfined joint edge.

Percent Within Limits (PWL) (Sec 403.23.7)

Superpave mixes contain a quality level analysis with statistically based incentive/disincentive pay factors. The QC tests are analyzed on each lot of mix and the pay is based on the percentage of the mix that statistically falls within the limits of the specifications. It is possible to have a given lot of mix with all tests falling within the specifications, but because of a large amount of deviation between test results, the percent within limits would be very low, giving the contractor a correspondingly low pay factor. Very consistent test results, with a correspondingly low standard deviation and high percent within limits, will produce high pay factors. Test results that are consistent may produce bonus pay factors while those that fluctuate within the specification limits will produce low pay factors.

The mean (xa), standard deviation (s), Upper Quality Index (Qu), Lower Quality Index(Ql), and total percent within limits (PWLt) are calculated for each pay factor item in each lot using the equations given in Standard Specification Section 403.23.7. The PWL for an item can be determined using Table III in Standard Specification Section 502.15.8. To use this table, calculate the Qu of the item and round the result to two digits (X.XX). Find the result in the left hand column of the table and move along the row to the right until reaching the column with the corresponding n-value. The n-value is the number of test results for the item in the lot. This process yields the upper percent within limits (PWLu) of the item. Repeat this process to determine the lower percent within limits (PWLl) of the item using the Ql. Finally, calculate the PWLt. If a Q-value is negative, subtract the PWL-value from 100. The Pay Factor Worksheet will automatically calculate the PWLt for each pay factor item in each lot.

Quality Level Analysis (Sec 403.23.7.1)

Best management practice is for QA to review the QLA with QC before processing the report. Sec 403.23.7.1 requires QA to make the QLA no more than 24 hours after receipt of the contractor’s test results.

Acceptance (Sec 403.23.7.1.1)

The QC test results will be used to determine the PWL as long as QC and QA compare favorably. If a favorable comparison is not obtained, dispute resolution procedures should be initiated. If dispute resolution is carried out to independent third party testing and the QC test results have been determined to be correct by the third party, the QC test results will be used to calculate the PWL. If the QA test results have been determined to be correct by the third party, the QA test results will be included in the PWL calculation.

During the project, QA and QC should be given the opportunity to witness each other’s sampling, splitting and testing. Doing so will help avoid future conflict. For comparison of QC and QA cores, the density for the QA core will be calculated using the Gmm from the corresponding QC loose mix sample from the same sublot.

Comparison (Sec 403.23.7.1.2)

Copies of all test methods should be readily available in the field laboratory. Testing procedures must follow an approved test method. If either party has an issue with the other’s sampling, splitting or testing procedures, an objection should be raised at that time. By doing this promptly, the issue can be resolved while it is still possible to re-create the test. If a decision is made to test a retained sample, the test should be run jointly so that the testing procedure is removed as a possible variable for explaining the difference in results.

A favorable comparison is obtained when the QA test results of a random, independent sample are within two standard deviations of the average of the QC test results. This determination cannot be made until all random testing for the lot has been completed. If the QC test results vary within the specification tolerances, the standard deviation will be large. In fact, as the variability in the QC test results increases, the standard deviation also increases. This results in a wide comparison range and low pay factors. On the other hand, if there is little variability in the QC test results, the standard deviation will be small. The comparison range will be narrow and the pay factors will increase. In this case, a favorable comparison is obtained when the QA test results are within one-half of the specification tolerances of the QC average. For example, the specification tolerances for VMA are –0.5% to +2.0%. One-half of this range is 1.25%. Therefore, a favorable comparison is obtained if the QA test result is within ±0.6% of the QC average.

If the comparison is not favorable, the first step is to review both QC and QA test results to see if there is any noticeable error. If no errors are found, testing of the retained samples may be performed. Judgment must be used in determining which retained sample(s) to test. When testing a retained sample, the entire suite of tests (%AC, Va, and VMA) should be performed to verify the validity of the original test results. If the test results of the retained sample confirm the original test results, the original test results are used to determine the PWL. If the test results of the retained sample verify that the original test results were incorrect, the test results of the retained sample are used to determine the PWL.

If the QC and QA test results have been determined to be valid and the comparison is still unfavorable, the test results from the random, independent QA sample will be included in the PWL calculation. The QA test results of QC retained samples or the test results from any additional QA samples will not be used in the PWL calculation. As an example, lot 3 has been completed and consists of 4 sublots. A favorable comparison was not obtained but it was determined that the QC and QA test results are valid. Therefore, the PWL calculation will include the QC test results from all 4 of the sublots and the test results of the random, independent QA sample (n = 5).

When the random QA test results are included in the PWL calculation, all volumetric properties (%AC, VMA & VA) for that sample will be used, even if only one of the three properties has an unfavorable comparison.

For the random split sample comparisons of QC loose mix, a favorable comparison is obtained when the QA test results of a QC retained volumetric sample are within 0.010 of the QC Gmm test results, within 0.010 of the QC Gmb test results, and within 0.1% of the QC asphalt content test results. If larger variances occur, both QC and QA should investigate the sampling and testing procedures to identify and rectify the cause of the discrepancy.

Outliers (Sec 403.23.7.1.3)

If it is suspected that an individual QC test result is an outlier, the entire lot of QC test results may be checked in accordance with Standard Specification Section 403.23.7.1.2. The eligible measured test results are Gmb, Gmc, Gmm, and %AC. Gmb, Gmc, and Gmm shall be carried out to three decimal places (X.XXX) and the %AC shall be carried out to two decimal places (X.XX). On the other hand, Va, VMA, and density are not eligible because these are calculated volumetric properties.

If an outlier is found, QC may test the retained sample from the corresponding sublot. Again, the entire suite of tests (%AC, Gmb, and Gmm) must be performed. If the test results from the retained sample confirm the original test results, the original test results will be used to calculate the PWL. If the test results from the retained sample do not confirm the original test results, the test results from the retained sample will be used to calculate the PWL.

When any change is made in the JMF, the previous test results cannot be used for future outlier calculations since the mix has changed. For example, if the contractor has made a change in sublot 2B and wants to check for an outlier in sublot 2D, the results from sublot 2A cannot be used since the mix is not the same.

Random Sampling (Sec 403.23.7.1.4)

See Random Numbers in EPG 403.2.19 Acceptance of Material (Sec 403.19).

Pay Factors (Sec 403.23.7.2)

The density (PFdensity), asphalt content (PFAC), VMA (PFVMA), and air voids (PFVa) pay factors are calculated for each lot using the corresponding PWLt and the equations in Standard Specification Section 403.23.7.2. The total pay factor (PFT) is then calculated for each lot using the average of the individual pay factors. If coring is not required, such as on a leveling course or non-integral shoulders, the PFT will be calculated for each lot using the average of the PFAC, PFVMA, and PFVa.

The contract adjustment is used to adjust the contractor’s pay to reflect the quality of the mix. The contractor may receive a bonus if the quality of the mix is good. On the other hand, if the quality of the mix is poor, a deduction will be applied. The contract adjustment is calculated by subtracting 100% from the PFT. The dollar amount of the bonus or deduction is determined by multiplying the unit bid price, the quantity of mix in the lot, and the contract adjustment (in decimal form) together.

Mix is typically produced and measured by the ton. Therefore, in order to eliminate confusion and excessive conversions on square yard projects (full depth pavements), the lots will be tracked by tonnage. When the pay factors are calculated at the end of the lot, the “Square Yard Calculator” in the Pay Factor Worksheet can be used to determine the square yards in the lot. This is best explained with an example:

On a full-depth paving project, the total thickness of the pavement is 12 in. and the contractor is placing two lifts of SP190, one 6 in. lift and one 4.25 in. lift. The final lift of SP125 is 2 in. thick. The lot size is 3000 tons. Suppose that one lot of SP190 has been completed. The total thickness of the pavement and the lift thicknesses are entered in the appropriate cells in the “Square Yard Calculator”. The length and width of the lot must be measured manually. The width of the lot is 12 ft., the length of the first lift is 4650 ft., and the length of the second lift is 3300 ft. Therefore, the area of the first lift is 6200.0 yd2 (12 ft. * 4650 ft. = 55800 ft2 * (1 yd2/9 ft2) = 6200 yd2) and is entered in the appropriate cell. The area of the second lift is 4400.0 yd2(12 ft. * 3300 ft. = 39600 ft2 * (1 yd2/9ft2) = 4400 yd2) and is entered in the appropriate cell. The square yardage represented by each lift is calculated by multiplying the square yards by the lift thickness divided by the total pavement thickness. Therefore, the square yardage of the first lift is 3100.0 yd2 (6200 yd2 * (6 in./12 in.) = 3100 yd2) and the square yardage of the second lift is 1558.3 yd2 (4400 yd2 * (4.25 in./12 in.) = 1558.3 yd2). This lot represents 4658.3 square yards. This procedure is followed for the remaining lots.

Density Pay Factor (Sec 403.23.7.2.1)

Density is calculated using the Gmb of the core and the Gmm of the mix. The PFdensity for each lot is calculated using the density test results of all of the sublots. Cores that are cut in half, as required by Standard Specification Section 403.15.4, will double the number of test results used to determine PFdensity. For example, suppose that the contractor is placing SP190 in 8” lifts and 4 cores are taken per lot, 1 per sublot. The lift is being placed thicker than 6 times the nominal maximum size aggregate used in the mix. By specification, the cores are to be cut in half and the density of each half determined separately. Therefore, 8 test results (as opposed to 4) will be used to determine the PFdensity for the lot.

Asphalt Content Pay Factor (Sec 403.23.7.2.2)

The PFAC for each lot is calculated using the binder content test results of all of the sublots.

Voids in the Mineral Aggregate and Air Voids Pay Factor (Sec 403.23.7.2.3)

The Va, VMA, and VFA are calculated using the average Gmb of the compacted gyratory specimens, the Gmm of the mix, the percent stone (Ps) of the mix, and the Gsb of the combined aggregate. The Ps is determined by subtracting the percent binder (Pb) from 100%. The Gsb will be that listed on the JMF. The PFVa and PFVMA for each lot are calculated using the Va and VMA test results of all of the sublots.

Removal of Material (Sec 403.23.7.3)

If the PFT for a lot is less than 50.0, the entire lot must be removed and replaced at the contractor’s expense. If the QC test results for density and/or air voids fall below the removal limits in any sublot, the affected mix must be removed and replaced at the contractor’s expense. The specifications state that the entire sublot must be removed. However, in some cases only a portion of the affected sublot(s) may require removal. Therefore, the limits of removal will be left up to the Resident Engineer's discretion. QC informational test results may be used to help define the limits of removal as long as the informational test(s) are well documented (see Asphalt Test Results (Sec 403.17.1.1) for the documentation requirements). The replacement mix will be sampled and tested as required. These test results will be used to calculate the PWL for the lot.

If the QA test results fall below the removal limits for density and/or air voids, the mix should stay in place if a favorable comparison has been obtained with the QC test results. Again, a favorable comparison signifies that the QC test results adequately define the characteristics of the lot and are, therefore, acceptable. If the QA test results fall below the removal limits and a favorable comparison has not been obtained, dispute resolution should be initiated to determine if the mix should stay in place.

For small quantities, if the laboratory compacted air voids are less than 2.5%, or the roadway density is less than 90.0% or more than 98%, the material should be removed and replaced. If asphalt content is above or below the target value by more than 0.3%, or if the roadway density is between 91.5% and 90%, the mixture may be allowed to remain in place with an appropriate deduction.

Miscellaneous Applications (Sec 403.23.7.4)

Small Quantities (Sec 403.23.7.4.1)

For small quantity projects consisting of less than 4000 tons, the statistical analysis of the mix is not required. Therefore, pay factors will not be determined. However, the mix must meet density, binder content, VMA, and Va specifications. The testing frequencies are stated in Standard Specification Section 403.19.3.2.1(b). Density will be adjusted in accordance with the table in Standard Specification Section 403.23.7.4.1(b). TSR testing is also required.

The contractor may use the PWL pay factors for a small quantity if they are specified in their QC plan.

Base Widening and Entrances (Sec 403.23.7.4.2)

Single Lift or Leveling Course Work (Sec 403.23.7.4.3)

This specification does not apply to “mill and fill” projects.

403.2 Materials Inspection for Sec 403

Asphalt, Permeability
Report 2009
See also: Research Publications

403.2.1 Scope

To establish procedures for mix design of asphaltic concrete pavement, inspection and acceptance of bituminous mixture. Ingredients for use in asphaltic concrete pavement are to be inspected in accordance with the applicable sections of this Manual. Plant calibrations, if requested, will be performed in accordance with EPG 106.4 Plant Inspections.

403.2.2 Mix Design Procedure

In order for an asphaltic concrete mix formula to be approved, the contractor’s proposed job mix formula (JMF) shall be submitted as required in Specification Section 403.3.1. The time for approval starts when the completed design is delivered to the District. This time restarts when the District receives information omitted from the original JMF or corrected by the contractor. Review times include District and Central Office processing, therefore, each mix should be processed as soon as possible. When the contractor is not accepted as a participant in the AASHTO Proficiency Sampling Program, material sampling is required for mixture verification. Trial mix samples must be obtained and submitted to the Central Laboratory in accordance with Section 1001 of the Materials Manual. When possible, the JMF and correspondence should be transmitted electronically. The Materials Field Office e-mail address is MFO.

District Procedure

When the District receives a proposed trial mix formula, as required by the Standard Specifications, the mixture properties, components and proportions should be checked to ensure compliance with Specifications and that they are approved for the intended use. It may be necessary for the District to advise the contractor to make changes in the proposed mixture in order to comply with Department policies. The district shall provide AWP IDs and all pertinent information (gradation, deleterious, etc.) for each fraction of aggregate used in the mixture. A QC plan in accordance with Section 1001 of the Materials Manual covering each aggregate fraction should be on file in the District Office or received with the JMF. The target gradations shown on the QC plan and JMF must match. When the District is satisfied that the proposed mixture is acceptable, a copy of the JMF and the contractor's letter shall be submitted to the Materials Field Office, accompanied by a letter of transmittal with comments, any corrections made and recommendations. The transmittal letter shall contain the following information:

Project information – Job Number, Route, County, Contract Number.
Mixture Types
Grade and All Possible Sources of Asphalt Binder Intended for Use
Letting Date
Proposed Work – Type of Work, Job Location and Length
Annual Average Daily Traffic (AADT)
Total Trucks
Total Combination Trucks
Mix Use – Mainline, Shoulders, Outer Roads, Entrances, etc.
Quantity of Mix

Included in the letter should be information regarding the approximate date on which the contractor intends to begin placing the mixture on the roadway, the type of mixture needed first and whether the JMF is submitted for a 7-day review or verification. Information concerning plant location, type of plant to be used, etc., is beneficial.

If the mixture design is performed by a laboratory participating in the AASHTO Proficiency Sampling Program with a rating of 3 or more on the applicable test methods, trial mix material does not need to be submitted to the Laboratory unless one or more of the following conditions apply:

a. Nuclear calibration for MoDOT asphalt content gauges is needed.
b. Material for full verification of the mixture is requested by the Field Office.
c. District personnel have concerns over any aspect of the mix design.

Requests for previously approved mixes shall be submitted and will be approved in accordance with applicable portions of EPG 403 Asphaltic Concrete Pavement. Approved mixtures may be transferred within the time limit of 3 years from the approval date. Transfer requests for mixtures that exhibited poor performance or field problems should be denied.

Upon request by the contractor, the District has authority to change the source of mineral filler, hydrated lime, natural sand from the Missouri and Mississippi Rivers or asphalt binder. However, constant changing throughout a project should not be allowed. The contractor must provide reasonable justification for changing sources during the course of a project. Any adjustments should be made to the JMF to reflect changed properties caused by the new source. (e.g. Change in Gsb, gradation, asphalt content, etc.)

Approval of a new mix design shall be obtained prior to changing the source of aggregates used in a mixture.

Field Office Procedure

The Materials Field Office is charged with the responsibility of processing the mix formula. General procedures for processing an asphaltic concrete mix formula are as follows:

a. A letter from a District requesting a mix with a copy of the contractor's JMF and letter is received.
b. Contract Special Provisions for the project are checked for necessary items.
c. The urgency of the mix and the status of trial mix samples in the Central Laboratory are reviewed.
d. Grade of asphalt, possible sources intended for use and the percent asphalt recommended are reviewed.
e. Gradations of the individual aggregates are checked for specification compliance and compared with the gradations determined by the Laboratory.
f. All calculations on the proposed JMF are checked.
g. For verification, a one-point trial is prepared and submitted to the Laboratory.
h. When Central Laboratory tests are completed, the results are compared to the contractor’s and against the specifications. If the mixes tested cannot be used, the mixture will be rejected.
i. Formulas to check aggregate and mixture properties are shown in LS 403.
j. Absorption values obtained by AASHTO T85 or T85 Combined will be shown on the JMF for determining which mixtures require the optional dry-back procedure of AASHTO T209.
k. Upon JMF approval, a unique JMF number will be created and entered into AWP for each possible asphalt source. Each JMF will have a two letter suffix abbreviation for the binder supplier name and location.

403.2.3 Field Adjustments of Superpave Mix Design

The specification criteria are to be used to determine whether or not the mixture meets the specifications. When a mixture is field adjusted, the contractor is to notify the inspector prior to making the adjustment. A new Gsb is required when cold feed adjustments are made. A new lot will begin with any change in asphalt content. Adjustments beyond the limits set in the specifications will require a new mix design. Field adjusted mixture changes are not required to be sent to the Field Office, however, the District will track the changes to ensure proper material quantities are inspected.

403.2.4 Field Superpave Mix Design

When a field mix design is needed, the contractor must first notify the engineer (the Materials Field Office is to be notified immediately). During the design and verification process, no mixture is to be placed on the project. A plan for producing, sampling and verifying the proposed field mix design is to be agreed on between the contractor and the engineer. One hundred (100) pounds of loose mixture will be required in the Central Laboratory and the Materials Field Office will approve or deny the field mix design. In order to be accepted for use, the test results must meet all of the following:

a. Minimum VMA for the mixture type, i.e., 12.0 minimum for 250 mixes, 13.0 for 190 mixes, 14.0 for 125 mixes, and 17.0 for 125 SMA mixes.
b. Asphalt content within 0.3 % of the adjusted target. For example, if the contractor chose to lower the asphalt content from 5.0 percent to 4.8 percent for a field adjustment, the initial test results must be within 0.3 % of 4.8 percent.
c. Air voids of 4.0 +/- 0.5
d. TSR result is equal to or greater than 80%.

The contractor and Central Laboratory may run the moisture sensitivity test simultaneously. If the contractor’s test results meet the above criteria, and the results are verified by the Central Laboratory, the target VMA will be set at the contractor's test result, the target AC content will be set at the target set for the field mix design, and the air voids target will be set at 4.0.

403.2.5 Report

A letter of transmittal will accompany the approved mixture to the District Construction and Materials Engineer with distribution as follows:

Title (e-mail address) Copy of Letter of

Transmittal & Approved Mix

District Construction and Materials Engineer (D#MaContacts) 1
Construction and Materials Clerk 1
Resident Engineer (POorg) 1
Physical Laboratory Director (PLO) 1
Chemical Laboratory Director (Extraction) 1
Design Representative 1
Field Office File 1
Contractor 1

The letter of transmittal and the approved mixture will be sent by electronic mail to the individuals listed above.

A copy of the approved formula accompanied by a letter of transmittal from the District Construction and Materials Engineer is to be forwarded to the contractor when an electronic mail address for the contractor has not been provided.

403.3 Laboratory Procedures for Sec 403

This establishes procedures for Laboratory testing and reporting of hot mix asphalt trial mixtures and field compacted density samples.

403.3.1 Procedure

403.3.1.1 Trial Mixtures

Test results and calculations required for asphaltic concrete trial mixtures are as shown in Batching below. Test results and calculations shall be recorded through AWP. Standard test procedures are as follows:

Mixture Property Test Method
Theoretical Maximum Specific Gravity (Rice) AASHTO T 209
Specific Gravity of Compacted Mixture AASHTO T 166, AASHTO T 275
Compaction and Stability Using Marshall Method AASHTO T 245
Compaction Using Gyratory Compactor AASHTO T 312
Moisture Sensitivity AASHTO T 283
Draindown of Mixture AASHTO T 305
Asphalt Content AASHTO T 308, MoDOT TM-54

403.3.1.1.1 Batching

Aggregates shall be divided into the individual aggregate sizes down to either the minus No. 8 or minus No. 16 sieve except when inconsistencies occur during testing where it may be advantageous to divide to the minus No. 200 material.

SP BB BP
1 1/2 in.
1 to 3/4 in. 1 to 3/4 in. 1 to 3/4 in.
3/4 to 1/2 in. 3/4 to 1/2 in. 3/4 to 1/2 in.
1/2 to 3/8 in. 1/2 in. to No. 4 1/2 in. to No. 4
3/8 in. to No. 4
No. 4 to No. 8 No. 4 to No. 8 No. 4 to No. 8
No. 8 or No. 8 to No. 16 No. 8 No. 8
No. 16
Additional sizes for batching to No. 200
(No. 16 to No. 30) (No. 8 to No. 30) (No. 8 to No. 30)
(No. 30 to No. 50) (No. 30 to No. 200) (No. 30 to No. 200)
(No. 50 to No. 100)
(No. 100 to No. 200)
(No. 200) (No. 200) (No. 200)
Sizes shown in parenthesis () are used when it is desired to batch a partcular fraction down to the minus No. 200.

403.3.1.1.2 Weigh each size aggregate according to the batch sheet in a tared pan and place into a larger pan for combining sizes. Repeat process for number of samples desired. The combined weight of a batch containing 3/4 in. plus material must be within 5 g of the target weight and a batch with minus 3/4 in. material must be within 3 g of the target weight. Otherwise, the sample shall be rebatched. If only one sample is out of tolerance, it may be swapped with the butter sample. The butter does not have to meet these tolerances.

403.3.1.1.3 Place samples and asphalt binder in an oven set at the mixing temperature. Heat in the oven a minimum of 2 hours. Aggregates may be heated no more than 28° C (50° F) above the mixing temperature in order to maintain the desired temperature throughout mixing.

403.3.1.1.4 Use a Hobart mixer with a wire whip to mix samples unless otherwise instructed to use a bucket mixer. Remove heated aggregate from oven and put in heated mixing bowl (bucket) that has been tared and weigh. Dry-mix thoroughly, then make a crater in the center of the aggregate to pool the binder. Calculate the proper binder weight for the actual weight of aggregate and add the binder to the aggregate to attain the proper weight. Recalculate the percent binder based on actual weights. If it is not within 0.02% of the target percent, add or remove binder to get within this tolerance. Mix until all aggregate is uniformly coated. The first batch shall be the butter. Scrape the mixing bowl with a spatula to remove as much of the mixture as possible. For each successive batch, the bowl should be scraped to the same level of removal as the butter. Calculation of the binder weight shall be as follows:

403.3.1.1.5 Split the mixtures batched in combined batches into individual specimens. Mixtures shall be placed in pans, at a depth of 1 to 2 in., then placed in a force-draft oven at the compaction temperature for the mixture and short-term aged for 2 hours. At one hour, stir Superpave mixtures making sure free binder and fines are scraped from the bottom and stirred evenly back into the mixture and place back in the oven. Other mixtures are aged with no stirring during the 2 hours.

403.3.1.1.6 After aging, stir mixtures, scraping binder and fines from the pan, and ensure all components are uniformly incorporated into the mixture.

403.3.1.1.7 The mixture shall be tested according to the appropriate test method.

403.3.1.1.8 Percent voids of the mixture (Va) shall be calculated as follows:

403.3.1.1.9 Percent voids in mineral aggregate (VMA) shall be calculated as follows:

Where:
Ps = Percent stone in mixture = 100 – Percent AC
Gsb = Bulk specific gravity of combined aggregate fractions
Where:
P1, P2, Pn = Bin percentages by mass of aggregate
G1, G2, Gn = Individual bulk specific gravities of aggregate

403.3.1.1.10 Percent aggregate voids filled with asphalt binder (VFA) shall be calculated as follows:

403.3.1.1.11 Limestone-Porphyry (LP) and SMA mixtures with porphyry requirements by volume of the plus No. 8 material shall be calculated as follows:

Where:
%R1+No.8, %R2+No.8, %Rn+No.8 = Percent of plus #8 non-porphyry aggregate.(100-P#8)
G1, G2, Gn = Bulk specific gravity of non-porphyry material by AASHTO T 85.
%RP1+No.8, %RP2+No.8, %RPn+No.8 = Percent of plus #8 porphyry aggregate. (100-P#8)
GP1, GP2, GPn = Bulk specific gravity of porphyry material by AASHTO T 85.

403.3.1.2 Field Compacted Density Samples

Samples, as submitted from the field, may be routine or Independent Assurance Samples. Tests and calculations shall consist of specific gravity and percent density. Test results and calculations shall be recorded on work Forms "Asphaltic Concrete (Field Sample)" and "Report of Tests on Sample of Asphaltic Concrete".

Specific gravity of the field compacted sample shall be determined in accordance with AASHTO T166 except cores to be averaged may be tested as one sample or individually.

Percent density of the compacted sample shall be calculated as follows:

Where:
Gmc=Specific Gravity of Sample

403.3.2 Sample Record

403.3.2.1 Trial Mixtures

The sample record shall be completed in AWP, as described in AWP MA Sample Record, General, and shall indicate acceptance, qualified acceptance, or rejection. Appropriate remarks, as described in EPG 106.20 Reporting, are to be included in the remarks to clarify conditions of acceptance or rejection. Test results shall be reported on the appropriate templates under the Tests tab.

403.3.2.2 Field Compacted Density Samples

The sample record shall be completed in AWP, as described in AWP MA Sample Record, General, and shall include a notation in the remarks, "Material submitted for the determinations indicated". Test results shall be reported on the appropriate templates under the Tests tab.

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