Development of CFRTP Intermediate Substrates Using in-Situ Polymerizable Thermoplastic Epoxy Resin

This study aims to create a novel method for fast mass-production of carbon fiber-reinforced thermoplastic (CFRTP) intermediate substrates by using in-Situ polymerizable thermoplastic epoxy resin, which is fed on reinforcing fibers in monomer mixture form in impregnation process and then allowed to...

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Published in:Journal of Fiber Science and Technology 2021/07/15, Vol.77(7), pp.188-195
Main Authors: Okumura, Wataru, Nishida, Hirofumi, Nunotani, Katsuhiko, Sugimata, Etsuro, Hasebe, Hiroyuki, Mori, Daisuke, Uzawa, Kiyoshi
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Language:eng ; jpn
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cited_by cdi_FETCH-LOGICAL-c282t-9626652d728c78bf7fdc2c7a41c38181bc57e52d372d1c30a030db7c9f29e5593
cites cdi_FETCH-LOGICAL-c282t-9626652d728c78bf7fdc2c7a41c38181bc57e52d372d1c30a030db7c9f29e5593
container_end_page 195
container_issue 7
container_start_page 188
container_title Journal of Fiber Science and Technology
container_volume 77
creator Okumura, Wataru
Nishida, Hirofumi
Nunotani, Katsuhiko
Sugimata, Etsuro
Hasebe, Hiroyuki
Mori, Daisuke
Uzawa, Kiyoshi
description This study aims to create a novel method for fast mass-production of carbon fiber-reinforced thermoplastic (CFRTP) intermediate substrates by using in-Situ polymerizable thermoplastic epoxy resin, which is fed on reinforcing fibers in monomer mixture form in impregnation process and then allowed to rapidly polymerize into linearly-extended thermoplastic high polymer. Comparison between the monomer viscosity of this resin and the melt viscosity of polypropylene (PP) implied that thermoplastic epoxy resin can impregnate into fiber bundles approximately 103 times faster than PP. The investigation of resin applying method to carbon fiber fabrics revealed that linearly applying method was better than planarly applying method in terms of less voids. Finally, two types of polymerization catalysts were investigated to rapidly polymerize thermoplastic epoxy resin. As a result, as short as 2.5-minute polymerization using the phosphorous-type catalyst allowed the resin polymerize into high polymer enough to exhibit practical flexural strength of 900 MPa or more when used as the matrix of CFRTP in the volume fraction of about 50 %.
doi_str_mv 10.2115/fiberst.2021-0019
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title Development of CFRTP Intermediate Substrates Using in-Situ Polymerizable Thermoplastic Epoxy Resin
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