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New efficient and cost-effective recycling process for carbon fiber
Source:Adsale Plastics Network    Editor:JK    Date:24.May.2021

In recent years there has been an increased focus on the circular economy and a heightened demand for products made of recyclable materials, however many materials can only be recycled so many times before they begin to wear out.

 

This is the case with carbon fiber reinforced polymer (CFRP) composites, non-biodegradable materials which, until now, have lacked a viable recycling method.

 

CFRP composites are present in products such as wind turbines, aeroplane parts, vehicles such as cars and ships, and everyday technology such as laptops and mobile phones. They are typically disposed of in landfills or by incineration, which pose significant threats to both the environment and public health.

 

The vast majority of existing recycling methods also cause a major reduction in the mechanical and physical properties of the recovered material, weakening its core functionality.

 

Researchers from the University of Sydney’s School of Civil Engineering have developed an optimized method for recycling CFRP composites while maintaining 90% of their original strength.


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CFRP composites applied in products such as wind turbines and aeroplane parts.


“To support a true circular economy, we developed an efficient and cost-effective method for recycling carbon fiber, which is present in tablets through to BMWs,” said the study’s lead researcher Dr Ali Hadigheh.

 

To do this, the researchers used a two phased, optimized process. The first step is called “pyrolysis”, which breaks down a material using heat, but significantly chars the materials which prevents it from developing a good bond with a resin matrix. And, the second process, oxidation, uses high temperatures to remove the char.

 

Pyrolysis and oxidation alone are not enough to preserve carbon fibers and these processes have existed for some time already. To ensure a high quality recovery and economic efficiency, thermal decomposition of CFRPs need to be guided by analyzing the energy required to initiate a chemical reaction in the composite and separate carbon fibers from the surrounding resin matrix.

 

“What makes our method so successful is that we have added specific parameters – such as temperature, heating rate, atmosphere or time spent being oxidized and heated – that preserve the functionality of carbon fiber,” explained Dr Ali Hadigheh.

 

The researchers embarked on the project with the aim of producing high grade, low cost structural materials made from recycled carbon fiber composites, for use in industries from aerospace and automotive through to sporting goods and renewable energy and construction.

 

In 2010, the global production of fiber reinforced polymers (FRP) was approximately 6 million tonnes with a projected growth of 300% in the next decade. With this projection, the consumption of FRPs will exceed 18 million tonnes by 2025, with an end-product value of AUD $80 billion.

 

“The 2016 Australian National Waste Report concludes that the use of composite materials is creating future challenges to recycling. Plainly put, if we do not develop efficient and cost-effective methods to recycle carbon fiber composites, we risk damaging the environment significantly,” concluded Dr Hadigheh.

 

Recycling of composite materials could be up to 70% cheaper and lead to a 90-95% reduction in CO2 emissions compared to standard manufacturing.

 

The United States, Japan and China lead the world in carbon fiber manufacturing. The researchers hope to increase the capacity of the Australian industry and work with manufacturers of wind turbines and commercial aircraft, as well as producers of sporting goods, and the construction, automotive and ship-building industries.

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