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Process- and material-induced heterogeneities in recycled thermoplastic composites

Authors :
Sebastiaan Wijskamp
Martin van Drongelen
Remko Akkerman
Thomas A. de Bruijn
Guillaume Almire Vincent
Production Technology
Source :
Journal of thermoplastic composite materials, 35(12), 2530-2551. Sage
Publication Year :
2022

Abstract

A novel recycling solution for thermoplastic composites (TPCs) was recently implemented. The processing steps comprise shredding of TPC offcuts to flakes of a few centimetres, melting and blending of the flakes in a low-shear mixer, extrusion of a molten mixed dough and subsequent compression moulding in a press. This material and process are similar to the compression moulding of long-fibre thermoplastics (LFTs) that have been in the market for decades, such as glass mat thermoplastics (GMT) or direct-LFT. However, the input material in this recycling route consists of multi-layered woven flakes, which is very different from the pellets or chopped rovings of other LFTs. Process- and material-induced heterogeneities such as fibre orientation, percolation, variation of fibre fraction, or fibre attrition may be different for this new material. The development of this recycling technology and future industrial applications require more confidence in the material and process. The objective of this study is to characterise these heterogeneities for this recycling solution, and compare them to those generated in regular LFTs. It was found that the process- and material-induced heterogeneities of the recycled TPCs are similar to other LFTs, for the aspects listed here: fibre orientation, percolation, variation of fibre fraction and fibre attrition. In comparison to GMT, the effect of the mixing step is particularly noticeable on the local variation of fibre fraction within the panels. Industrial applications of this recycling route will benefit from this similarity, as it improves the confidence in the material and process combination.

Details

Language :
English
ISSN :
08927057
Volume :
35
Issue :
12
Database :
OpenAIRE
Journal :
Journal of thermoplastic composite materials
Accession number :
edsair.doi.dedup.....7682d0052588e87fe8a1db1e2d8d0534
Full Text :
https://doi.org/10.1177/0892705720979347