Strain Rate Effect on the Fracture Toughness of Carbon/Epoxy Composite in a Deep-Sea Environment

机译：应变速率对深海环境中碳/环氧复合材料断裂韧性的影响

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For a present study, the compressive fracture behavior of carbon/epoxy laminated composite subjected to low and high strain rates in the hydrostatic pressure environment was investigated. Compressive fracture tests were performed in the hydrostatic pressure environment of 270 MPa. The fracture properties, compliance and fracture load were determined from load-displacement curves as a function of applied strain rate. Elastic work factor approach was used to determine fracture toughness. It was found that fracture behavior of carbon/epoxy composite is affected by the strain rate. The compliance decreased as the applied strain rate increased while the fracture load is less affected by the strain rate. Fracture toughness decreased about 13% as the strain rate increased from 0.05% to 0.55%. It seems that the decrease of fracture toughness with increasing strain rate occurs because epoxy behaves in a more brittle manner at a high strain rate.

机译：为了进行本研究，研究了在静水压力环境下低/高应变速率下碳/环氧层压复合材料的压缩断裂行为。在270 MPa的静水压力环境下进行了压缩断裂试验。根据载荷-位移曲线确定断裂特性，顺应性和断裂载荷，该曲线是施加应变率的函数。弹性功因数法用于确定断裂韧性。发现碳/环氧树脂复合材料的断裂行为受应变速率的影响。顺应性随着所施加的应变率的增加而降低，而断裂载荷受应变率的影响较小。随着应变率从0.05％增加到0.55％，断裂韧性降低了约13％。似乎随着应变率的增加，断裂韧性降低，这是因为环氧树脂在高应变率下表现得更脆。

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《Technical conference of American Society for Composites》|2011年|p.431-439|共9页
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S.R. HA; K.Y. RHEE; H.J. KIM; D.H. JUNG;
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中图分类复合材料;
关键词
Strain rate; Carbon/epoxy composites; Hydrostatic pressure; Fracture toughness;

机译：应变率;碳/环氧复合材料;静水压力;断裂韧性;

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4. Strain Rate Effect on the Fracture Toughness of Carbon/Epoxy Composite in a Deep-Sea Environment [C] . S. R. HA, K. Y. RHEE, H. J. KIM, American Society for Composites Technical Conference . 2005

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Strain Rate Effect on the Fracture Toughness of Carbon/Epoxy Composite in a Deep-Sea Environment

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