Effect of cryogenic environments on failure of carbon fiber reinforced composites

The present study is concerned with damage and failure of CFRP composites under isothermal mechanical loads in the ambient and cryogenic thermal regimes. In an experimental study, the mechanical failure behavior of unidirectionally carbon fiber reinforced materials is investigated at ambient tempera...

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Veröffentlicht in:	Composites science and technology 2021-08, Vol.212, p.108850, Article 108850
Hauptverfasser:	Hohe, Jörg, Schober, Michael, Fliegener, Sascha, Weiss, Klaus-Peter, Appel, Simon
Format:	Artikel
Sprache:	eng
Schlagworte:	Ambient temperature Carbon fibers CFRP Composite materials Cryogenic effects Cryogenic temperature Cryogenic temperatures Damage Damage and failure Failure Failure analysis Failure criteria Fiber composites Liquid helium Low temperature physics Temperature effects
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container_title	Composites science and technology
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creator	Hohe, Jörg Schober, Michael Fliegener, Sascha Weiss, Klaus-Peter Appel, Simon
description	The present study is concerned with damage and failure of CFRP composites under isothermal mechanical loads in the ambient and cryogenic thermal regimes. In an experimental study, the mechanical failure behavior of unidirectionally carbon fiber reinforced materials is investigated at ambient temperature and in a liquid Helium environment at 4.2 K under a variety of loading conditions. The effect of thermally induced damage is investigated on specimens exposed to cryogenic temperature without external mechanical load and subsequent testing till failure at ambient temperature. Three different materials including high modulus and intermediate modulus high strength fibers as well as epoxy and thermoplastic (PEEK) matrix systems are considered. The results are employed to investigate the applicability of different standard composite failure criteria in the cryogenic regime. [Display omitted]
doi_str_mv	10.1016/j.compscitech.2021.108850
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In an experimental study, the mechanical failure behavior of unidirectionally carbon fiber reinforced materials is investigated at ambient temperature and in a liquid Helium environment at 4.2 K under a variety of loading conditions. The effect of thermally induced damage is investigated on specimens exposed to cryogenic temperature without external mechanical load and subsequent testing till failure at ambient temperature. Three different materials including high modulus and intermediate modulus high strength fibers as well as epoxy and thermoplastic (PEEK) matrix systems are considered. The results are employed to investigate the applicability of different standard composite failure criteria in the cryogenic regime. 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source	ScienceDirect Journals (5 years ago - present)
subjects	Ambient temperature Carbon fibers CFRP Composite materials Cryogenic effects Cryogenic temperature Cryogenic temperatures Damage Damage and failure Failure Failure analysis Failure criteria Fiber composites Liquid helium Low temperature physics Temperature effects
title	Effect of cryogenic environments on failure of carbon fiber reinforced composites
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