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UK Scientists Address Difficult-to-Recycle Thermoset Polymers

A team of UK scientists are using at method that gets them a step closer to making several different types of plastic much easier to recycle. The method could be applied to a whole range of difficult-to-recycle polymers, including rubbers, gels, and adhesives.

Thermoplastics can be heated to high temperatures, poured into a mould then cooled to make the desired shape. They can subsequently be melted and reformed into other shapes when they are recycled, however they can break when stretched or stressed. In contrast, the polymer chains in thermoset plastics are crosslinked to form a network that makes them incredibly strong and flexible. They are often used in composite materials, paints, coatings, rubbers and gels. Unfortunately, however, the crosslinks mean that the materials burn rather than melt when heated, making them much harder to break down and recycle.

Researchers at the University of Bath and University of Surrey have developed a way of introducing degradable bonds into thermoset polymers to make them more easily recyclable. Publishing in Polymer Chemistry, they made a series of polymer gels with breakable bonds incorporated into different parts of the structure, and tested whether the properties changed after the gel was degraded and reformed. They found that while all the gels could be degraded to some extent, gels with breakable bonds in the polymer chains (B in the diagram below) retained their properties much better when reformed, compared with the polymers that were broken down via the cross-linked bonds (A).

Figure 1

The researchers hope this model system can be applied to other types of polymers, including adhesives, sealants and elastomers.

Dr Maciek Kopeć, from the University of Bath’s Department of Chemistry, said, “Thermosets are used widely in the commercial sector, in materials like resins and adhesives. Being able to make bonds reversible in these materials will increase their applications as well as making them more recyclable.”

The researchers aim to create a general road map of the best locations for these breakable bonds, to understand better why some bonds break more easily than others, and plan to optimize the system using other commercially used polymers. They are also looking at other applications of the work, including using crosslinked polymers as vehicles for controlled drug delivery systems.

To access the paper, click here

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