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Investigate how different processing conditions affect the properties of recycled polyamide and elastane blends.

March 12, 2026Open Access

Processing–Property Relationships in Melt Processing of Polyamide–Elastane Textile Blends

Key Points

Investigate how different processing conditions affect the properties of recycled polyamide and elastane blends.
Conducted extrusion processing of polyamide and elastane blends under varying temperature and screw types.
Evaluated the impact of processing conditions on phase morphology and melt viscosity.
Assessed the mechanical properties of the recycled blends compared to pure polyamide.
Temperature significantly influenced melt viscosity and mechanical properties of the blends.
All recycled samples showed enhanced ductility compared to pure polyamide.
Mechanical recycling presents a viable option for polyamide/elastane textile waste.

Abstract

The recycling of polyamide 6 (PA) and elastane (EL) from post-consumer textiles is increasingly relevant for sustainable materials development. This study investigates blends obtained from a commercial PA fabric containing 16% EL, processed via extrusion under various conditions to evaluate the influence of temperature, screw type, and speed on phase morphology and thermo-mechanical performance. The results demonstrate that processing parameters, particularly temperature, significantly affect melt viscosity and the final mechanical properties of the blends. Enhanced ductility was observed in all recycled samples compared to pure PA, indicating that mechanical recycling is a promising strategy for PA/EL textile waste. These findings support the feasibility of this approach, while highlighting the need for further research into compatibilization techniques and industrial scalability.

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Processing–Property Relationships in Melt Processing of Polyamide–Elastane Textile Blends

Key Points

Abstract

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