Prediction of statistical life time for unidirectional CFRTP under cyclic loading

Recently, the Innovative Composite Center of Kanazawa Institute of Technology developed a thermoplastic epoxy resin (TP-EP). Resin-impregnated carbon fiber reinforced TP-EP (CF/TP) strands molded by pultrusion were developed by Komatsu Matere Co., Ltd., for use as tension rods. This study examines t...

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Veröffentlicht in:	Journal of reinforced plastics and composites 2021-10, Vol.40 (19-20), p.749-758
Hauptverfasser:	Nakada, Masayuki, Miyano, Yasushi, Kageta, Soshi, Nishida, Hirofumi, Hayashi, Yutaka, Uzawa, Kiyoshi
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container_end_page	758
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container_title	Journal of reinforced plastics and composites
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creator	Nakada, Masayuki Miyano, Yasushi Kageta, Soshi Nishida, Hirofumi Hayashi, Yutaka Uzawa, Kiyoshi
description	Recently, the Innovative Composite Center of Kanazawa Institute of Technology developed a thermoplastic epoxy resin (TP-EP). Resin-impregnated carbon fiber reinforced TP-EP (CF/TP) strands molded by pultrusion were developed by Komatsu Matere Co., Ltd., for use as tension rods. This study examines the prediction of the statistical life time for these developed CF/TP strands under cyclic tension loading with comparison to our earlier report of similar predictions for carbon fiber reinforced thermoset epoxy resin (CF/TS) strands having a thermoset epoxy resin (TS-EP) as a matrix. First, test methods for static and fatigue strengths at elevated temperatures were developed for CF/TP strands. Second, static and fatigue tensile strengths of CF/TP strands were measured statistically at various constant temperatures under a constant strain rate and frequency. The master curves of statistical fatigue tensile strengths for CF/TP strands were constructed by substituting the measured data into the formulations of these strengths based on the matrix resin viscoelasticity. The fatigue strength characteristics of CF/TP strands were discussed through comparison to those of CF/TS strands with thermosetting epoxy resin as the matrix.
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title	Prediction of statistical life time for unidirectional CFRTP under cyclic loading
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