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Closed loop mechanical recyclability of post-consumer waste wool fabrics based on fibre length retention

Mary J. Glasper, Giuseppe Picerno, Muhammad Tausif, Stephen J. Russell

2024Cleaner Engineering and Technology9 citationsDOIOpen Access PDF

Abstract

• Mechanical recycling has little effect on the tensile strength of wool or cashmere fibres. • Initial mean fibre length is negatively correlated to the percentage retained mean fibre length after mechanical recycling. • Mean fibre length after mechanical recycling is close in value to the distance between the feed rollers and opening roller. • Sorting of textile waste and modulation of process settings can be optimised to retain higher fibre length. • A Recycling Index is introduced to estimate how many times wool or cashmere can be recycled in a closed-loop process.

Topics & Concepts

WoolMaterials scienceComposite materialLoop (graph theory)Closed loopPulp and paper industryMathematicsEngineeringControl engineeringCombinatoricsTextile materials and evaluations
Closed loop mechanical recyclability of post-consumer waste wool fabrics based on fibre length retention | Litcius