Category:612 Impact Attenuators

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Truck-Mounted Attenuator with a Flashing Arrow Panel
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This article presents three primary types of impact attenuators: truck-mounted attenuators, trailer-mounted attenuators and freestanding impact attenuators (sand barrels). Impact attenuators are designed to absorb energy of an impacting vehicle and reduce the force on a passenger to an acceptable level.

Truck-mounted and trailor-mounted attenuators (both referred to as TMAs) are equipped with revolving lights and flashing arrow panels. TMAs are also often equipped with warning signs.

Articles on MoDOT's truck-mounted attenuator training and Maintenance Planning Guidelines for Impact Attenuators are also available.

612.1 Truck- and Trailer-Mounted Attenuators

Truck- and trailer-mounted attenuators (TMAs) are safety devices to be used for all mobile operations conducted near traffic. Damaged TMAs are to be removed from service and either repaired or replaced.

Truck-mounted attenuators are energy-absorbing devices attached to the rear of the trucks used as protective vehicles, thus protecting the motorist and the protective vehicle's driver upon impact.

File:612.1 Trailer-type TMAs.jpg
Trailer-Mounted Attenuator

In 2006, MoDOT began using several trailer-mounted attenuators that are pulled by the host vehicle as oppposed to being loaded in or on the vehicle.

MoDOT Truck-Mounted Attenuator Training
Drivers of a truck-mounted attenuator vehicle are responsible to ensure all other employees are adequately protected from errant vehicles in or around a work zone. With this article, MoDOT provides consistent use of TMAs statewide by teaching the proper location, roll-ahead distance and warning to co-workers and traveling public, when applicable.

The National Cooperative Highway Research Project tests and sets crash criteria for TMAs and has approved two types of TMA devices: the 230 and 350. Only 350-tested units can be used on MoDOT construction projects. MoDOT crews can continue to use both types on the state highway system, but the 230 TMAs can only be used on minor routes. The 230 units are to be marked "for use on minor routes only" and must be relocated to maintenance areas that maintain a large proportion of minor routes.

In 2006, MoDOT began using several trailer-type TMAs. These TMAs are pulled by the host vehicle as opposed to being loaded in or on the vehicle. The trailer-type TMAs comply with NCHRP 350.

TMA Positioning. Proper positioning of the TMA vehicle within the work zone is critical to its effectiveness. The TMA vehicle location should provide sufficient warning to approaching traffic and maximum protection for workers. It should:

  • maintain a minimum 150 ft. roll-ahead distance
  • be parallel to the traffic at all times, and
  • have its wheels aligned with traffic.

Equipment/Materials Stored in Bed of Host Vehicle. Loads may be moved to and from work areas in the bed of the host vehicle, but must be removed when TMA is deployed for protection or has the possibility of deployment prior to getting to the work area. Loads or cargo are not allowed to be carried on trailer type TMAs.

The NCHRP crash tests were straight-on and offset collisions, not side impacts. TMAs are not designed for side impacts.

Operator Responsibilities. It is the TMA operator’s responsibility to protect workers from approaching traffic. The operator needs to observe the surrounding area at all times, checking mirrors constantly for any oncoming hazards and warn the crew immediately should the need arise. The operator must secure any loose items in the vehicle’s cab, properly adjust mirrors and always be buckled up.

Table 612.1 Use of TMAs

Highway Type Operation Location and Duration
In Lane On Shoulder and Ramps and at Intersections
Mobile Stationary
Two-lane Undivided Recommended Recommended Recommended
Multi-Lane Undivided Required Recommended Recommended
Multi-Lane Divided Required Required Recommended
On MoDOT’s internal maintenance operations where the normal posted speed limit is 60 mph or greater, the host vehicle shall be a Heavy-Duty Single Axle Truck style, or heavier, and meet the truck-mounted and trailer-mounted attenuator manufacturer’s recommendations.

For incident response operations, a vehicle with a trailer-mounted attenuator is not required. If used, the host vehicle shall meet the trailer-mounted attenuator manufacturer’s recommendations.

612.2 Sand-Filled Impact Attenuators (Sand Barrels)

This system consists of a group of freestanding plastic barrels configured in increasing weights from the impact point toward the object. Such an array transfers the vehicle’s momentum to the increasing masses of sand in the barrels and provides a gradual deceleration. Each barrel is designed with a specific weight of sand to absorb the energy of an errant vehicle. The sand barrel array's "footprint" length and width and the number of barrels will change based upon the vehicle speed. Refer to Standard Plan 612.20 for details. When specified, quantities are calculated and shown on the plans. No direct payment is made for the Type 1 object marker on the lead module. An estimate for replacement barrels needs to be included as a separate pay item, typically calculated as one for every ten barrels.

Sand barrels are most often used to shield fixed objects that cannot be removed or relocated. Sand barrels are recommended for temporary usage such as in work zones. A benefit/cost analysis is to be conducted before sand barrels are used in a permanent application.

An approved sand-filled impact attenuator may be installed on the exposed end of the barrier where the posted speed prior to construction on an existing facility or the anticipated posted speed of a temporary facility is greater than 35 mph. A crash cushion will be required on the upstream end for divided facilities, and on both ends for all two-way facilities. Crash cushions are discussed in EPG 617.1.4 Crash Cushion. Applicable pay items are included in the plans.

Crashworthy end terminals (Types A through E) should be used when sufficient width is not available for sand barrels. More information on proprietary crash cushions is available at EPG 617.1.3.3 Crash Cushion.

612.3 Construction Inspection Guidelines for Sec 612

Material (for Sec 612.2) Certifications are to be collected on both the sand and retroreflective sheeting used in or on the sand-filled impact attenuators.

Safety Requirements (for Sec 612.3) The inspector is to request a copy of the manufacturer’s certification that states the units comply with the crash test requirements of NCHRP 350, Test Level 3, and have FHWA acceptance. This information is to be kept in the project files.

Construction Requirements (for Sec 612.4)

Truck-Mounted Attenuator (for Sec 612.4.1) TMAs are to be inspected to make sure they are structurally sound, the frames are not bent and that they appear to be in good working order. In some cases, the contractor may elect to add TMAs when TMAs are not required. Even elective TMAs need to be NCHRP 350 compliant so the certification still needs to be collected. Typically, TMAs are only required and paid for under conditions where the contractor is operating without a lane drop set up (cones, channelizers, etc.). TMAs that the contractor voluntarily adds to an operation are typically not paid for.

Sand-Filled Impact Attenuator (for Sec 612.4.2) The inspector is to request a copy of the manufacturer’s installation instructions for whatever particular brand of sand-filled impact attenuator the contractor is using. When inspecting the sand-filled impact attenuator arrays, make sure that the array is set up as shown in the standard plans and filled in accordance with the manufacturer’s recommendations. All lids are to be on and secured. MoDOT requires rock salt intermixed with the sand so that any water that gets into the barrels will not freeze and create a safety hazard. When checking the contents of the barrels, rock salt should be visible in the sand mix. During periods of extended cold weather, the sand should be checked periodically to make sure it hasn’t frozen because the salt content has been exhausted. If this condition is found, the contractor will need to add more salt or replace the sand/salt mixture.

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