Reinforcements arrive from TSL

When soil conditions fail to give adequate support for barrier posts, TSL Engineering has produced a solution - S.C.Re.W.S. (Save Crash REinforcing Weak Soil) system.
May 4, 2020 Read time: 2 mins
An installation machine at work

In order to install a road barrier, it must be crash-tested in a test house by a certifying body to declare that it conforms to European Union standards, explains TSL, based in Rome.

The barrier’s correct behaviour is guaranteed by the interaction between its posts and the soil into which it is installed. As such, the soil’s characteristics must give the post its maximum security of installation which in turn guarantees the barrier behaves as predicted during laboratory tests or test-bed sessions.

However, in real life, installations do not always occur in soil with suitable characteristics. In these cases, when a vehicle crashes into the barrier, the structure is inevitably incapable of containing the vehicle and redirecting it back onto the roadway. The solutions usually adopted not only fail to solve the problem but are also quite expensive, according to TSL.

Where soil conditions fall short of what is needed for complete barrier performance, the S.C.Re.W.S. system provides the necessary strength to the post installation. S.C.Re.W.S. transfers impact loads to the road pavement subgrade that has stronger mechanical characteristics than those of the embankment. This anchorage system allows the post to bend in a predefined spot and, via its plastic deformation, correctly dissipate the energy of the impact, similarly to what happens during a crash test.

TSL says that its system has been tested by numerous certifying bodies.

 

For more information on companies in this article

Related Content

  • The Lessons of the Genoa bridge collapse
    April 23, 2019
    The partial collapse of the Polcevera viaduct, better known as the Morandi Bridge, has prompted debate regarding the technical and administrative aspects of maintaining road infrastructures. We discussed it with the engineer Gabriele Camomilla, former Director of Research and Maintenance of the Società Autostrade, who coordinated the only major structural intervention performed on the bridge, carried out in the early 1990s
    Read More
  • Specifying barriers correctly for optimum roadway safety
    April 29, 2015
    Mike Dreznes, executive vice president at the International Road Federation (IRF) discusses the proper utilisation of longitudinal barriers as a road safety priority Road authorities have a duty of care to ensure infrastructure not only meets safety requirements but provides protection for all road users. Crash barriers play an essential role in maximising safety, lowering the risk of sudden impact for road users and also allowing redirective capabilities.
    Read More
  • Specifying barriers correctly for optimum roadway safety
    April 29, 2015
    Mike Dreznes, executive vice president at the International Road Federation (IRF) discusses the proper utilisation of longitudinal barriers as a road safety priority Road authorities have a duty of care to ensure infrastructure not only meets safety requirements but provides protection for all road users. Crash barriers play an essential role in maximising safety, lowering the risk of sudden impact for road users and also allowing redirective capabilities. If a road authority has a rigid hazard locate
    Read More
  • New barriers are helping improve road safety
    June 30, 2014
    A series of new guardrail technologies and barrier developments are now coming to market - Mike Woof writes. An array of technical developments is helping improve highway safety for road users. New barrier and guardrail technologies can offer greater conspicuity so as to alert drivers, along with better restraint capabilities. Gregory Industries offers a wide range of steel and cable barrier types and has now developed an attachment system for international use. This fixes the guardrail to the post and in t
    Read More

Highlighted Content