Tensile properties and damage evolution in a 3D C/SiC composite at cryogenic temperatures

Xiaochong Liu; Laifei Cheng; Litong Zhang; Ning Dong; Shoujun Wu; Zhixin Meng

doi:10.1016/j.msea.2011.06.050

Tensile properties and damage evolution in a 3D C/SiC composite at cryogenic temperatures

Xiaochong Liu, Laifei Cheng, Litong Zhang, Ning Dong, Shoujun Wu, Zhixin Meng

材料学院

Northwestern Polytechnical University Xian

科研成果: 期刊稿件 › 文章 › 同行评审

45 引用（Scopus）

摘要

Tensile test was used upon a 3D-C/SiC composite under air or nitrogen atmosphere to characterize its mechanical behaviors and associated damage evolutions from room to cryogenic temperatures. The tensile strength relatively weakened most at -40 °C, however, that is recovered as temperature decreasing to -100 °C. The mismatch of coefficient of thermal expansions between carbon fiber and SiC matrix plays a role in this mechanical response. An interfacial damage model based on microscopic observation is proposed. Finite element method is used to analysis C/SiC deformations. Some generalizations were provided under the cryogenic environment.

源语言	英语
页（从-至）	7524-7528
页数	5
期刊	Materials Science and Engineering: A
卷	528
期	25-26
DOI	https://doi.org/10.1016/j.msea.2011.06.050
出版状态	已出版 - 25 9月 2011

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title = "Tensile properties and damage evolution in a 3D C/SiC composite at cryogenic temperatures",

abstract = "Tensile test was used upon a 3D-C/SiC composite under air or nitrogen atmosphere to characterize its mechanical behaviors and associated damage evolutions from room to cryogenic temperatures. The tensile strength relatively weakened most at -40 °C, however, that is recovered as temperature decreasing to -100 °C. The mismatch of coefficient of thermal expansions between carbon fiber and SiC matrix plays a role in this mechanical response. An interfacial damage model based on microscopic observation is proposed. Finite element method is used to analysis C/SiC deformations. Some generalizations were provided under the cryogenic environment.",

keywords = "C/SiC composites, Cryogenics, Finite element analysis (FEA), Mechanical characterization",

author = "Xiaochong Liu and Laifei Cheng and Litong Zhang and Ning Dong and Shoujun Wu and Zhixin Meng",

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T1 - Tensile properties and damage evolution in a 3D C/SiC composite at cryogenic temperatures

AU - Liu, Xiaochong

AU - Cheng, Laifei

AU - Zhang, Litong

AU - Dong, Ning

AU - Wu, Shoujun

AU - Meng, Zhixin

PY - 2011/9/25

Y1 - 2011/9/25

N2 - Tensile test was used upon a 3D-C/SiC composite under air or nitrogen atmosphere to characterize its mechanical behaviors and associated damage evolutions from room to cryogenic temperatures. The tensile strength relatively weakened most at -40 °C, however, that is recovered as temperature decreasing to -100 °C. The mismatch of coefficient of thermal expansions between carbon fiber and SiC matrix plays a role in this mechanical response. An interfacial damage model based on microscopic observation is proposed. Finite element method is used to analysis C/SiC deformations. Some generalizations were provided under the cryogenic environment.

AB - Tensile test was used upon a 3D-C/SiC composite under air or nitrogen atmosphere to characterize its mechanical behaviors and associated damage evolutions from room to cryogenic temperatures. The tensile strength relatively weakened most at -40 °C, however, that is recovered as temperature decreasing to -100 °C. The mismatch of coefficient of thermal expansions between carbon fiber and SiC matrix plays a role in this mechanical response. An interfacial damage model based on microscopic observation is proposed. Finite element method is used to analysis C/SiC deformations. Some generalizations were provided under the cryogenic environment.

KW - C/SiC composites

KW - Cryogenics

KW - Finite element analysis (FEA)

KW - Mechanical characterization

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DO - 10.1016/j.msea.2011.06.050

M3 - 文章

AN - SCOPUS:79961168247

SN - 0921-5093

VL - 528

SP - 7524

EP - 7528

JO - Materials Science and Engineering: A

JF - Materials Science and Engineering: A

IS - 25-26

ER -

Tensile properties and damage evolution in a 3D C/SiC composite at cryogenic temperatures

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