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ID 57699
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Author
Okayasu, Mitsuhiro Graduate School of Natural Science and Technology, Okayama University ORCID Kaken ID researchmap
Tsuchiya, Yuki Graduate School of Natural Science and Technology, Okayama University
Abstract
The mechanical properties of long unidirectional (UD) and crossply (CR) carbon fiber reinforced plastics (CFRPs) were investigated at a low temperature (−196 °C). The CFRPs were fabricated from 60 vol.% carbon fiber and epoxy resin. The bending strength of the UD-CFRP was approximately twice that of the CR-CFRP. The high strength of the UD-CFRP was directly attributed to the amount of carbon fiber oriented along the loading direction: 60% for UD-CFRP compared with 30% for CR-CFRP. The low-temperature (−196 °C) tensile and fatigue strengths of the UD-CFRP were over 1.5 times greater than those at room temperature (20 °C). This was attributed to the increased epoxy strength at low temperatures along with the internal compressive stress arising from the different thermal expansion coefficients of the carbon fiber and epoxy. Both the epoxy strength and internal compressive strength were employed as factors in a compound law to numerically estimate the low-temperature tensile strength. This work presents a systematic analysis for changes in the CFRP material properties at low temperatures.
Keywords
CFRP
Carbon fiber
Tensile strength
Fatigue strength
Low temperature
Published Date
2019-10-14
Publication Title
Journal of Science: Advanced Materials and Devices
Volume
volume4
Issue
issue4
Publisher
Vietnam National University
Start Page
577
End Page
583
ISSN
24682179
Content Type
Journal Article
language
English
OAI-PMH Set
岡山大学
Copyright Holders
© 2019 Publishing services by Elsevier B.V. on behalf of Vietnam National University, Hanoi.
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publisher
DOI
Web of Science KeyUT
Related Url
isVersionOf https://doi.org/10.1016/j.jsamd.2019.10.002
License
http://creativecommons.org/licenses/by/4.0/
Citation
Mitsuhiro Okayasu, Yuki Tsuchiya, Mechanical and fatigue properties of long carbon fiber reinforced plastics at low temperature, Journal of Science: Advanced Materials and Devices, Volume 4, Issue 4, 2019, Pages 577-583, ISSN 2468-2179, https://doi.org/10.1016/j.jsamd.2019.10.002.
Open Access (Publisher)
OA
Open Archive (publisher)
Non-OpenArchive