Home » Skanska’s basalt rebar concrete paves the way for net zero roads

Skanska’s basalt rebar concrete paves the way for net zero roads

by Sion Geschwindt
The solution has led to a carbon reduction of more than 50%, with the same strength as conventional steel-reinforced concrete.

A low carbon reinforced concrete solution is set to be extended to permanent roads after a successful 12-month trial, construction giant Skanska announced this week.

Over the past year Skanska, alongside the National Composites Centre, Tarmac, Basalt Technologies and National Highways, have been trialling basalt rebar concrete at Skanska’s M42 junction 6 project for National Highways.

A report with findings from the trial has now been published.

The results show that the solution has led to a reduction of more than 50% in carbon, with the same strength as conventional steel-reinforced concrete.

Skanska says that the trial was such a success it is now working collaboratively with National Highways and High Speed 2 Ltd (HS2) on the next phase.

The plan is to trial the low carbon combination on a permanent road and capture all the data and analysis for future publication.

The ultimate goal is to roll out the solution across the UK’s strategic road network.

Skanska is also working with HS2’s innovation managers to progress the learning from the trial and use the combination of materials in other structural reinforced concrete elements beyond roads.

Skanska’s Highways Director, Glennan Blackmore said: “The results of the trial are extremely encouraging. By working together, we have been able to speed up the process of testing and analysing a new solution for de-carbonising our road network, with the aim of getting it to market so the whole industry can benefit.

“By using a unique combination of materials, we are working to not only cut carbon, but also improve the structural performance of reinforced concrete, delivering better productivity, safety and cost outcomes. We’re delighted at the success of this trial and we’re now really looking forward to starting the next stage.”

The trial also provides a better understanding of the impact of using the new materials – including the use of composites in the design of concrete structures – ahead of the proposed revision to Eurocode 2 standards.

Adam Gallis, National Highways Project Manager said: “At National Highways, we were delighted to use our Innovation and Modernisation Designated Fund Pot to help make this trial a reality.

“In utilising this funding, we can go above and beyond what we would typically deliver on our schemes and in this instance, working alongside the supply chain, we have made great strides in the development of a low carbon reinforced concrete alternative.

“We will look to do what we can to facilitate further trials in this sphere, to ultimately drive down our carbon footprint and achieve our net zero targets.”

The first trial

Tarmac provided two types of concrete for the trial: a mix comprising conventional blended cementitious material and a low carbon alternative mix incorporating an Alkali Activated Cementitious Material (AACM) in place of the cement.

This low carbon concrete solution was mixed at a conventional concrete plant located close to the project and installed in exactly the same way as traditional materials. This new sustainable product delivers a carbon footprint up to 80 per cent lower than a standard CEM I concrete.

The reinforcement steel replacement was a Bastech basalt fibre reinforced polymer rebar. This is five times lighter and twice as strong as its steel counterpart and is naturally resistant to corrosion, alkalis and acids.

The trial involved the construction of four concrete slabs at the M42 junction 6 highways improvement scheme. The slabs were laid in December 2021 and were made up of:

  • Slab A – conventional concrete + steel reinforcement
  • Slab B – low carbon concrete + steel reinforcement
  • Slab C – conventional concrete + basalt reinforcement
  • Slab D – low carbon concrete + basalt reinforcement

The road was heavily used by construction vehicles throughout the trial period, with in-situ and laboratory tests carried out over a number of months. Full scale specialist lab tests involved bending and shear testing of the four types of slabs.

The results have provided knowledge of the curing process, ease of construction, safety benefits, functional properties and structural behaviour of the various concrete and reinforcement combinations. This has given insight into the future use of longer lasting materials in construction.

The National Composites Centre calculated the carbon throughout the lifecycle of the structural element and carried out an environmental performance assessment.


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