Recycling of polymer waste for structural and non-structural materials by using ionizing radiation

According to data, half the amount of plastic produced during 1950-2015 has been produced in the past 3 years. Consequently, plastic production has an annually increasing trend and by 2050, around 12 billion tons of plastic is expected to accumulate in landfills and in the environment. The visibility of plastic waste is increasing because of its accumulation in recent decades and its negative impact on the surrounding terrestrial and marine environment and in human health. Unlike organic waste, plastic can take hundreds to thousands of years to decompose in nature. Plastic waste is causing floods by clogging drains, causing respiratory issues when burned, shortening animal lifespans when consumed, and contaminating water bodies when dumped into canals and oceans. In oceans, plastic is accumulating in swirling gyres that are miles wide. Under ultraviolet light from the sun, plastic is degrading into “microplastics” that are almost impossible to recover and that are disrupting food chains and degrading natural habitats.
There are many ways to curb plastic waste—by producing less, consuming less, producing alternatives eco-friendly products and better managing the waste, what involves keeping the waste in the loop as much as possible (recycling), generating useful products. Taking these actions requires engagement from numerous stakeholders in society, including citizens, governments, community organizations, businesses, and manufacturers. Policy solutions, increased awareness, and improved design and disposal processes, among others, can minimize the impact of plastic waste on society.
The radiation technology has been successfully used for the recycling of polytetrafluoroethylene (PTFE) and rubbers and provides a potential approach towards effective environmental solutions to this important problem. However, opportunities exist for new novel applications for scalable solutions. Some promising results have shown radiation technology is able to convert plastic waste into a variety of useful purposes presenting powerful opportunities for environmental sustainability and material innovations.
The CRP tailor to demonstrate how radiation technology complements the existing recycling steps, to produce novel materials/value-added products, generating quality feedstock and reducing the energy and cost involved in the conventional process