Journal
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
Volume 167, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.compositesa.2023.107433
Keywords
C; Computational modelling; E; Liquid Composite Moulding; Compression resin transfer moulding
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Transverse impregnation variants of LCM processes, including RTP and CRTM, show fast fill times and the model developed in this study simulates these processes accurately, considering factors like process time, fluid pressure, stress, and fiber volume fraction distribution. Assumptions like quasi-steady flow and uniform through-thickness deformation lead to significant errors in manufacturing process predictions, especially for transverse processes involving direct tool compaction of the fiber preform.
Transverse (through-thickness) impregnation variants of Liquid Composite Moulding (LCM) processes result in relatively fast fill times due to the short resin flow path. In a recently developed transverse LCM process termed Resin Transfer Pressing (RTP), compaction drives resin from a saturated carrier material into a dry reinforcement material. In this work, a model has been developed to simulate the entire family of transverse LCM processes, including RTP and Compression Resin Transfer Moulding (CRTM). Under the assumption of one-dimensional flow, simulations are carried out to predict the process time, fluid pressure, effective stress, and fibre volume fraction distribution through the thickness for these processes. It is shown how commonly made assumptions such as quasi-steady flow and uniform through-thickness deformation introduce significant errors in manufacturing process predictions, such as the tool velocity and homogenisation time, especially for transverse processes involving direct tool compaction of the fibre preform.
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