Self-reinforced biopolymer composites (2022-2025)

Abstract

This project will pioneer high performance and biodegradable composites using self-reinforced biopolymer composites. Composites can have poor properties due to interfacial issues, and this reduces their performance. By producing a fully self-reinforced (where the fibre and the polymer are the same type of polymer) polymer composites, the project will develop a way to improve properties, increase the use of biobased materials, and improve recyclability and biodegradability. Outcomes include greater understanding of design of self-reinforced biopolymer composites structure, processing and properties. This will produce opportunities for high performance biobased composite manufacturing and a growing circular plastics economy for Australia.

Experts

Professor Peter Halley

Affiliate of Dow Centre for Sustain: Dow Centre for Sustainable Engineering Innovation; Faculty of Engineering, Architecture and Information Technology

Affiliate of Centre for Marine Scie: Centre for Marine Science; Faculty of Science

Professor: School of Chemical Engineering; Faculty of Engineering, Architecture and Information Technology

Peter Halley

Dr Luigi Vandi

Affiliate of Centre for Advanced Ma: Centre for Advanced Materials Processing and Manufacturing; Faculty of Engineering, Architecture and Information Technology

Senior Lecturer: School of Mechanical and Mining Engineering; Faculty of Engineering, Architecture and Information Technology

Luigi Vandi