First efforts on recovery of thermoplastic composites at low temperatures by power ultrasonics

Cleaner Materials Pub Date : 2023-06-01 DOI:10.1016/j.clema.2023.100186

Balaji Ragupathi , Matthias Florian Bacher , Frank Balle

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引用次数: 2

Abstract

Fiber reinforced composites possess exceptional mass-specific properties and therefore offer a high potential for weight reduction in lightweight applications. However, the need to recover, remanufacture and recirculate polymer composites at lower temperatures is still an area to be addressed. For a cleaner and more sustainable reuse of polymer composites at their end-of-use (EoU) phase, a materials circularity strategy can be applied. This work describes a novel method and proof-of-concept to recover carbon-fiber (CF)/ polyether-ether-ketone (PEEK) composites. It is composed of three steps: i.) initiation of controlled interlaminar pre-cracks by power ultrasonics, ii.) propagation of the pre-cracks under peel-like loading, and iii.) ultrasonic reconsolidation of the separated layers. Microscopic and mechanical investigations on the composite materials before and after the separation and reconsolidation, shows near-identical fiber-bundle arrangements, with the reconsolidated composites retaining approximately 89 % of its mechanical properties compared to the original laminate.

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热塑性复合材料的低温功率超声回收研究

纤维增强复合材料具有特殊的质量特性，因此在轻质应用中具有很高的减重潜力。然而，在较低温度下回收、再制造和再循环聚合物复合材料的需求仍然是一个需要解决的领域。为了在聚合物复合材料的使用结束（EoU）阶段实现更清洁、更可持续的再利用，可以应用材料循环策略。本文介绍了一种回收碳纤维（CF）/聚醚醚酮（PEEK）复合材料的新方法和概念验证。它由三个步骤组成：i.）通过功率超声引发受控层间预裂纹，ii.）预裂纹在剥离状载荷下的扩展，以及iii.）分离层的超声再固结。分离和再固结前后对复合材料的微观和力学研究表明，纤维束排列几乎相同，与原始层压板相比，再固结的复合材料保留了约89%的机械性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cleaner Materials

CiteScore

9.20

自引率

0.00%

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