Current Projects

Recycled Concrete Road Barriers – Saferoads & University of Melbourne

Australian ingenuity delivers next generation of road barriers to increase public safety and decrease waste. The...
Crumb Rubber Capacity Expansion (for Spray Seal in Qld)

The project delivers an isolated product path in order to remove the risk of cross contamination at load out of other...
RAP Crumb rubber asphalt mix

Develop an asphalt mix with crumb rubber and a high amount of Reclaimed Asphalt Pavement (RAP) suitable for local...
CalTrans Gap Graded Technology Transfer

Project will provide Gap Graded product as specified by CALTRANS (California) to be an alternative, equivalent product...
Crumb rubber asphalt trial

This project will promote sustainable solutions for surfacing heavily trafficked roads. To do this, VicRoads will trial...
Permeable Pavement

Field trial of permeable paving in real life loading conditions (with comprehensive instrumentation testing). The...
Protectiflex Pumped & Composite Blast Mitigation Project

Production of a blast and ballistic mitigating cementitious building product comprised of TDP aggregate and...
High Shear Mobile Crumb Rubber Mixer

Purchase of a mobile plant that can mix crumb rubber asphalt for spray seal projects that cannot be feasibly serviced...
Crumb rubber asphalt binder characterisation and specification for road pavement applications

This project provides a basis to standardise testing and classification for crumb rubber modified binders in a way that...
Dense Grade Crumb Rubber Asphalt Trial – City of Mitcham

The project will demonstrate the positive effects crumb rubber from tyres will have on the flexibility, durability and...
Equine Air Pakenham Racing Club Project

The project will provide a new benchmark for an engineered free-draining racetrack for the thoroughbred racing industry...
Production of tyre crumb derived composite material

This project is a further iteration of the R&D project completed in the 2016/17 financial year. Based upon the...
Physical properties of tyre walls in residential housing construction

Physical properties of tyre walls in residential housing construction. The aim of the project is to develop resources...
Innovative design of lightweight and structurally efficient composites incorporating crumb rubber

Upon the establishment of the structure-property relationships of the composites, the team will work with industry...
Transfer of crumb rubber modified asphalt and sealing technology to Queensland & WA

International studies have shown that gap graded asphalt with crumb rubber modified binders can provide improved...
Development of reinforced concrete – recycled tyre bale sandwich structural wall system

This project will study the structural behaviour of precast reinforced concrete (RC)–used tyres bale sandwich wall...
Assessment of liquid fuel chemicals and porous material production from end of life tyres

Conversion of waste material into fuels and useful chemicals is a sustainable approach to address issues related to the...
Reinforced crumbed rubber concrete for residential construction

To demonstrate that reinforced crumb rubber concrete is an economically viable and sustainable alternative to...
Tyre crumb derived Polymeric Powder / Polyolefin composite material piping

Tyre crumb derived Polymeric Powder/Polyolefin composite material piping: This project developed and tested a new...
A green lightweight composite panel system using recycled tyres

This project looks at the use of tyres as a low-density aggregate in lightweight concrete sandwich panels for...
Recycled tyre in permeable pavement applications

Investigate the suitability of using a 60% waste tyre mix in permeable pavement applications as a new storm-water...
Developing Graphene supercomposite using end-of-life tyres

Developing Graphene Integrated Super-composite materials using end-of-life tyres. This project is looking at the...
Explore and evaluate local market development opportunities for crumb rubber asphalt in Australian roads

This project focused on the development of an evidence-based strategy to revise current VicRoads asphalt specifications...
Transfer of crumb rubber modified asphalt and sealing technology to Queensland

This project focused on the transfer of proven crumb rubber modified surfacing technologies to Queensland in order to...
Performance of rubber-based absorbing layer (REAL) for railroad stability

This project examines the performance of a rubber-based energy absorbing layer (REAL) as a capping stratum (beneath the...
Tyre Aggregate Supplementary Material in Pavement Sub-bases

An applied research project undertaken with VicRoads and Sustainability Victoria to characterise and assess the...

Current Project > Road

Recycled Concrete Road Barriers – Saferoads & University of Melbourne

21 November 2022

Recycled Concrete Road Barriers – Saferoads & University of Melbourne

Australian ingenuity delivers next generation of road barriers to increase public safety and decrease waste.

The product – called Rubber T-Lok – has been developed by Saferoads and researchers from the University of Melbourne’s Advanced Protective Technologies of Engineering Structures (APTES) Research Group, with funding and support from Tyre Stewardship Australia (TSA).

The crash test at Victoria’s Lardner Park facility in September demonstrated that rubberised concrete road barriers will decrease impact severity and are a viable use of end-of-life tyres that would otherwise go to waste.

Saferoads CEO, Darren Hotchkin, said: “This new product will enable Australia to recover 115 tonnes of used tyres for every 10 kilometres of the Rubber T-Lok road safety barrier produced.”

University of Melbourne Professor Tuan Ngo, who leads the Advanced Protective Technologies of Engineering Structures (APTES) Research Group said: “This full-scale test is a tangible success for our project to invent sustainable uses for waste tyres.

“Road users are the winners here. The test showed that designed rubberised concrete road barriers will help reduce the force of impact thereby reducing the likelihood of injury and death, as well as being less damaging to the barrier itself. Debris emanating from shattered concrete road barriers, which may create another safety hazard after a crash takes place, is substantially reduced.

“We are very passionate about our work in this area and very keen to share outcomes that can save lives, increase road safety, and use recycled materials in a cost-effective manner.”

With enhanced safety benefits and a longer lifespan, it offers a cost-effective solution for a variety of industry sectors that make and use safety barriers, such as: manufacturing, engineering, construction, mining, outdoor event management and government road safety programs, especially in regional, rural and remote areas.

“This is yet another example of Australian ingenuity and innovation at its best, and we’re very proud to have supported a new home-grown product go from the lab to the real world,” says TSA CEO Lina Goodman.

view all back