TY - JOUR
T1 - Thermo-mechanical characterisation of polycarbonate-based sheet moulded composites fabricated from off-cut waste unidirectional tapes
AU - Savandaiah, Chethan
AU - Kapshammer, Andreas
AU - Plank, Bernhard
AU - Stolcer, Vanja
AU - Marschik, Christian
AU - Major, Zoltan
N1 - Publisher Copyright:
© BME-PT.
PY - 2024/9
Y1 - 2024/9
N2 - Thermoplastic (TP) composites, known for their ease of handling, suitability for high production rates, and recyclability, are emerging as a promising alternative to thermoset-based composites. The expected growth in TP-based composites in automotive, sports, and aerospace industries may result in increased post industrial waste. To address this, we repurposed our in-house process scrapped carbon fibre-reinforced polycarbonate tapes into sheet moulding compounds (SMCs) and Hybridised SMCs (Hy-SMCs) using compression moulding. In Hy-SMCs, the top and bottom layers were unidirectional tapes, while the core section had randomly oriented platelets in a 50:50 ratio. Our evaluation included qualitative and thermo-mechanical standard tests. The incorporation of unidirectional tapes in Hy-SMCs significantly improved the tensile and flexural properties of SMCs. Specifically, these enhancements resulted in an impressive 81 to 85% increase in mechanical strength compared to the standard aluminium grade. Additionally, Hy-SMCs exhibited a 120 to 130% increase in tensile and flexural properties compared to SMCs. Fractography revealed a complex relation between fractured surfaces, with multimode failures in both SMCs and Hy-SMCs. Also, the non-destructive evaluation showed platelet reorientation during consolidation and localised voids with increased specimen thickness.
AB - Thermoplastic (TP) composites, known for their ease of handling, suitability for high production rates, and recyclability, are emerging as a promising alternative to thermoset-based composites. The expected growth in TP-based composites in automotive, sports, and aerospace industries may result in increased post industrial waste. To address this, we repurposed our in-house process scrapped carbon fibre-reinforced polycarbonate tapes into sheet moulding compounds (SMCs) and Hybridised SMCs (Hy-SMCs) using compression moulding. In Hy-SMCs, the top and bottom layers were unidirectional tapes, while the core section had randomly oriented platelets in a 50:50 ratio. Our evaluation included qualitative and thermo-mechanical standard tests. The incorporation of unidirectional tapes in Hy-SMCs significantly improved the tensile and flexural properties of SMCs. Specifically, these enhancements resulted in an impressive 81 to 85% increase in mechanical strength compared to the standard aluminium grade. Additionally, Hy-SMCs exhibited a 120 to 130% increase in tensile and flexural properties compared to SMCs. Fractography revealed a complex relation between fractured surfaces, with multimode failures in both SMCs and Hy-SMCs. Also, the non-destructive evaluation showed platelet reorientation during consolidation and localised voids with increased specimen thickness.
KW - carbon fibre
KW - polycarbonate
KW - sheet moulding compounds
KW - thermoplastic composites
UR - http://www.scopus.com/inward/record.url?scp=85200687329&partnerID=8YFLogxK
U2 - 10.3144/expresspolymlett.2024.66
DO - 10.3144/expresspolymlett.2024.66
M3 - Article
AN - SCOPUS:85200687329
SN - 1788-618X
VL - 18
SP - 883
EP - 900
JO - Express Polymer Letters
JF - Express Polymer Letters
IS - 9
ER -