Litcius/Paper detail

Recent Progress in Sustainable Recycling of Waste Acrylonitrile–Butadiene–Styrene (ABS) Plastics

Simon MoonGeun Jung

2025Sustainability6 citationsDOIOpen Access PDF

Abstract

Acrylonitrile–butadiene–styrene (ABS) has been widely used as an engineering thermoplastic, and the increasing post-consumer waste of ABS plastics calls for efficient and sustainable recycling technologies. The recent advances in ABS recycling technologies were investigated to enhance material recovery, purity, and environmental performance. Thermo-oxidative degradation compromises mechanical integrity during reprocessing, while minor reductions in molecular weight increase melt flow rates. Surface modification techniques such as boiling treatment, Fenton reaction, and microwave-assisted flotation facilitate the selective separation of ABS from mixed plastic waste by enhancing its hydrophilicity. Dissolution-based recycling using solvent and anti-solvent systems enables the recovery of high-purity ABS, though some additive losses may occur during subsequent molding. Magnetic levitation and triboelectrostatic separation provide innovative density and charge-based sorting mechanisms for multi-plastic mixtures. Thermochemical routes, including supercritical water gasification and pyrolysis, generate fuel-grade gases and oils from ABS blends. Mechanical recycling remains industrially viable when recycled ABS is blended with virgin resin, whereas plasma-assisted mechanochemistry has emerged as a promising technique to restore mechanical properties. These recycling technologies contribute to a circular plastic economy by improving efficiency, reducing environmental burden, and enabling the reuse of high-performance ABS materials.

Topics & Concepts

ReuseWaste managementPlastic wasteEnvironmental scienceMaterials scienceSupercritical fluidWaste recyclingResource recoveryCombustionReusabilityMechanochemistryProcess engineeringMunicipal solid wasteWaste treatmentWaste materialDegradation (telecommunications)Recycling and Waste Management TechniquesPolymer Science and PVCExtraction and Separation Processes