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Fibercon’s Emesh product has made headlines for its environmental gains and robust technical performance when it comes to reinforcing concrete.

Media coverage has included the prestigious Journal of Cleaner Production, the Building Materials Journal, local newspapers, ABC Radio and Science Alert.

Science Alert

Details of the research published on Science Alert were also shared widely on Facebook and Twitter and generated significant interest and uptake from councils, construction companies, developers and others.
http://www.sciencealert.com/scientists-have-made-concrete-using-plastic-waste-and-it-s-just-as-strong-as-regular-concrete

The Australian Innovation Challenge Award

Emesh also won the 2015 The Australian Innovation Challenge Award in the construction and manufacturing category.


https://e-award.com.au/2016/mostinnovativeengineers/index.php



"WINNER Engineers Australia - Mark Combe - 60 of the Most Innovative Engineers in Australia – Community Section"

National Geographic

Concrete with plastic waste in it instead of steel: the material of the future?

Researchers at James Cook University, Australia, have managed to develop concrete is not reinforced with steel, but with plastic waste . The durable technique limited to the environmental impacts of concrete to a minimum, while providing opportunities d e growing amount of plastic waste to be processed in a sustainable way. A win-win situation.

Wonder Stuff

The "green" concrete was amplified using recycled polypropylene plastic. The material withstood various tests of strength and durability and is ideally suited for the construction of, for example sidewalks, drainage wells and support beams.

Watch in cooperation with local concrete producers Tuladhar and his team at the moment the potential for large-scale production of the "miracle material". It also examined the concrete otherwise be preserved by completely replacing natural sand for example in the production by concrete granulate, a byproduct of quarries, and an ingredient replacing cement as 30 percent by mining waste.

Second most used material on earth

Concrete is, after water, the most common material on Earth. Globally, we annually produce more than twenty billion tons of concrete. The production of cement, one of the main ingredients of concrete, is responsible for 5 percent of the annual global CO2 emissions. That may seem relatively low, but when you consider that we still consider us through this durable concrete plastic waste can provide a place, the benefit to the environment to achieve is great.

You can read the article here: https://translate.google.com.au/translate?hl=en&sl=nl&u=http://www.nationalgeographic.nl/artikel/beton-versterkt-met-plastic-afval&prev=search


"UNSW School of Civil and Environmental Engineering - Sustainable Innovation"


Link- https://www.engineering.unsw.edu.au/civil-engineering/news/congratulations-to-mark-combe-innovative-alumnus



Videos

This Concrete Is Made With Waste Plastic

2015 JCU Three Minute Thesis Competition - Shi Yin

Dr Rabin Tuladhar - 3MT Finals - James Cook University

Win News- recyceld plasticfibre in concrete JCU

Downloads

Recycled Plastic Fibres in Concrete-Townsville bulletin

News in sciencealert

JCU researchers reinforce concrete

NEWS


Newsletter - May 2018
Newsletter - September 2017
Ballina to Byron: a natural selection

Ballina to Byron: a natural selection

As the placement contractor building the Ballina to Byron Highway Bypass swale drains, Robbo’s has used Emesh by Fibercon. Originally the project specified Fibercon Virgin Macro Poly. Lend Lease, the head Contractor was happy to switch to Emesh. The region is known for its environmental values, which made Emesh an obvious choice. Construction began in 2013 and is expected to be completed in 2016.

JCU: place for science

JCU: place for science

As one of Australia’s most environmentally conscious tertiary educators, James Cook University has been buidling a five-star green-rated building. In consultation with the Engineer OPUS and Contractor Lend Lease, JCU has opted to use Emesh by Fibercon to build its extensive pathways and also loading docks and construction for Science Place. Construction is currently underway and expected to be completed during 2016.

A career carved in concrete

A career carved in concrete

As a young man, Tony Collister worked with traditional Italian concreters in Melbourne.

Technically proficient with an almost artisan pride in their work, Tony says the exacting standards of these men were uncompromising and provided an education he has never forgotten.

While there was no official apprenticeship in concreting, Tony feels his training was akin to one. Certainly the Italians have a proud tradition with concrete. The word comes from the Latin word "concretus" meaning compact or condensed and the world’s most famous concrete structures include the Colosseum and the Roman Pantheon.

As Fibercon’s Research and Development Manager, Tony brings a wealth of knowledge developed over many years starting with those early years in Melbourne as a “tradie”.

Tony has worked as a concrete producer, a steel fibre specialist and is currently the Chair of the Concrete Institute of Australia’s North Queensland Regional Committee.

He works comfortably between the academic researchers at James Cook University (JCU) innovating concrete’s environmental sustainability and clients that span engineers, concrete producers, designers and onsite specialists.

Tony first joined Fibrecon in 1999 and remains its Northern Australia Manager as well as heading up R&D. Fibercon’s sponsorship of research at JCU has seen Tony involved in the scientific future of concrete for 13 years. He has personally mentored engineering students since 2002 and been involved with a number of thesis projects covering different aspects of concrete.

Most recently, Tony has worked with Dr Shi Yin during his PhD research into using 100% recycled plastic fibres instead of virgin plastic fibres to create a superior concrete that is far friendlier to the environment. The result is Fibercon’s Emesh product.

"Concrete is the most used building material on the planet – the sheer amount of it being used requires us to continually find better ways to create a superior product that is also better for the environment,” Tony says.

He’s excited that Emesh’s technical and environmental credentials have exceeded expectations and passed the exacting standards required to be the subject of articles in prestigious international publications, The Journal of Cleaner Production and Building Materials Journal.

"The use of plastic fibres in concrete has been around for a long time as its benefits for technical performance are well established but this new product is the first time 100% plastic fibres have ever been used,” Tony says.

"The technical performance of Emesh is first rate. The PhD research put Emesh through a large number of chemical tests to ensure its abilities in acid and alkaline environments and its durability and strength. Testing shows it does not degrade and delivers a strong post cracking performance.

"We are really championing this product and will do so over the years come to promote the hands-on examples of its use and really spread the word about its benefits to those wanting to deliver a superior job."

Emesh is suited to driveways, pavements, cycle-ways, loading docks, traffic island infills, ground slabs and a range of precast applications.

"At Fibercon we have never had to replace a cubic metre of concrete and pride ourselves on the end result exceeding expectations that make our customers look good to their customers," he says.

"The best thing about Emesh is it offers so many extra benefits without any extra cost. Architects are particularly excited that our product is either cost neutral or offers costs benefit compared to steel, which makes their job of including more environmentally friendly solutions in their projects much easier.

"In most cases, green products are more expensive than their conventional counterparts but that’s not the case with Emesh. There is no cost penalty."

Emesh is fully prepared at the concrete plant where the plastic fibres are added to the cement mix and fully dispersed so it arrives at the site ready to go. There is no need for a second truck to be used to deliver steel mesh slabs to the site or for the fiddly work of cutting mesh to fit the brief and no off cuts to dispose of later.

The Emesh concrete is quick and easy to pour into place whatever the shape or curves of the job dispersing perfectly into place with no waste.

"It actually reduces costs as you don’t need to go the trouble, expense and waiting time of booking an engineer’s inspection to make sure the concrete is properly in place," he says.

"However, a major benefit is it stops plastic going into landfill and is playing a role in reducing the carbon footprint of construction.

"I would love to see Emesh become readily available for domestic use for driveways, slabs for carports and garden sheds and so on. It’s such an easy product to work with and performs so well."

Fibercon's Emesh Undergoes Rigorous Testing

Fibercon's Emesh Undergoes Rigorous Testing

Fibercon has been working with James Cook University (JCU) for more than a decade to investigate ways in which concrete production can be made more environmentally sustainable.

More than 25 million cubic meters of concrete is poured in Australia every year. The production of cement for use in concrete produces 900kg of CO2 for every tonne of cement and accounts for 5% of total annual global CO2 production.

However, the scientific challenge has been producing a greener solution that doesn’t compromise technical performance or add significant costs.

The use of virgin plastic fibres in concrete began more than 10 years ago, but it was Fibercon’s Dr Shi Yin who put forward a PhD project with JCU that looked at the implications of using 100% recycled plastic fibres.

More recently, Dr Yin has been appointed Fibercon’s technical developer responsible for innovation, testing and compliance.

Dr Yin’s research started in 2012 experimenting with creating 40 to 50 mm long plastic fibres for disbursement in concrete. Different plastic industrial waste was tired including that recycled from curbside bins, before settling on recycled polypropylene plastics used commonly in packaging.

Industrial polypropylene waste provided the research team with consistent quality and a reliable source of high quality recycled plastic fibres at the industrial scale needed for manufacturing.

The technical performance of the plastic fibre concrete was tested extensively in acidic and alkaline environments as well as an independently assessed live 100-metre footpath project.