TY - JOUR
T1 - Re-use potential of carbon fibre fabric recovered from infusible thermoplastic CFRPs in 2nd generation thermosetting-matrix composites
AU - Gebhardt, Magnus
AU - Manolakis, Ioannis
AU - Kalinka, Gerhard
AU - Deubener, Joachim
AU - Chakraborty, Souvik
AU - Meiners, Dieter
N1 - Publisher Copyright:
© 2021 Elsevier Ltd
PY - 2021/12
Y1 - 2021/12
N2 - The research presented here attempts to assess the potential for re-using carbon fibre (CF) fabrics recovered from recycling infusible acrylic thermoplastic carbon fibre reinforced polymer composites (CFRPs) in a universal manner, i.e. by combining with a wide variety of matrices to manufacture 2nd generation composite laminates by resin infusion. The 2nd generation composites have been compared in terms of bulk and interfacial properties against counteparts processed with virgin carbon fibre fabric infused with the same matrices. Generally, an increase in damping (tanδ) was observed in all 2nd generation composites, which can be attributed to a residual thin thermoplastic layer present on the recovered fibres. The interfacial adhesion of the 2nd generation composites was investigated by shear tests and scanning electron micsoscopy, and also appears to be less influenced by the type of matrix.
AB - The research presented here attempts to assess the potential for re-using carbon fibre (CF) fabrics recovered from recycling infusible acrylic thermoplastic carbon fibre reinforced polymer composites (CFRPs) in a universal manner, i.e. by combining with a wide variety of matrices to manufacture 2nd generation composite laminates by resin infusion. The 2nd generation composites have been compared in terms of bulk and interfacial properties against counteparts processed with virgin carbon fibre fabric infused with the same matrices. Generally, an increase in damping (tanδ) was observed in all 2nd generation composites, which can be attributed to a residual thin thermoplastic layer present on the recovered fibres. The interfacial adhesion of the 2nd generation composites was investigated by shear tests and scanning electron micsoscopy, and also appears to be less influenced by the type of matrix.
KW - Composite recycling
KW - Fibre/matrix bonding
KW - Thermoplastic matrix
KW - Thermosetting resin
UR - http://www.scopus.com/inward/record.url?scp=85122810043&partnerID=8YFLogxK
U2 - 10.1016/j.coco.2021.100974
DO - 10.1016/j.coco.2021.100974
M3 - Article
AN - SCOPUS:85122810043
SN - 2452-2139
VL - 28
JO - Composites Communications
JF - Composites Communications
M1 - 100974
ER -