Random fatigue damage accumulation analysis of composite thin-wall structures based on residual stiffness method

Zengwen Wu; Guodong Fang; Maoqing Fu; Xiaojie Chen; Jun Liang; Dongkai Lv

doi:10.1016/j.compstruct.2019.01.018

Random fatigue damage accumulation analysis of composite thin-wall structures based on residual stiffness method

Zengwen Wu, Guodong Fang^*, Maoqing Fu, Xiaojie Chen, Jun Liang, Dongkai Lv

^*此作品的通讯作者

先进结构技术研究院

科研成果: 期刊稿件 › 文章 › 同行评审

24 引用（Scopus）

摘要

The damage accumulation and life prediction for C/SiC composite panels subjected to random vibration loading was studied by using the residual stiffness model in combination with critical failure stiffness ratios in the different stress levels. According to the results of stiffness degradation and material S-N curves for constant-amplitude fatigue loadings, a new residual stiffness model was established and extended to adapt random stress states by using an equivalent damage ratio algorithm in time domain. The stiffness degradation and material S-N curves were obtained by using constant amplitude fatigue experiments. Random vibration tests with limited-bandwidth excitation were conducted to verify the prediction model. Good agreement is observed compared with the results of 2D plain-woven C/SiC composite panel subjected to random vibration loadings.

源语言	英语
页（从-至）	546-556
页数	11
期刊	Composite Structures
卷	211
DOI	https://doi.org/10.1016/j.compstruct.2019.01.018
出版状态	已出版 - 1 3月 2019

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Wu, Z., Fang, G., Fu, M., Chen, X., Liang, J., & Lv, D. (2019). Random fatigue damage accumulation analysis of composite thin-wall structures based on residual stiffness method. Composite Structures, 211, 546-556. https://doi.org/10.1016/j.compstruct.2019.01.018

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title = "Random fatigue damage accumulation analysis of composite thin-wall structures based on residual stiffness method",

abstract = "The damage accumulation and life prediction for C/SiC composite panels subjected to random vibration loading was studied by using the residual stiffness model in combination with critical failure stiffness ratios in the different stress levels. According to the results of stiffness degradation and material S-N curves for constant-amplitude fatigue loadings, a new residual stiffness model was established and extended to adapt random stress states by using an equivalent damage ratio algorithm in time domain. The stiffness degradation and material S-N curves were obtained by using constant amplitude fatigue experiments. Random vibration tests with limited-bandwidth excitation were conducted to verify the prediction model. Good agreement is observed compared with the results of 2D plain-woven C/SiC composite panel subjected to random vibration loadings.",

keywords = "Composites materials, Fatigue life, Random fatigue, Random vibration, Residual stiffness",

author = "Zengwen Wu and Guodong Fang and Maoqing Fu and Xiaojie Chen and Jun Liang and Dongkai Lv",

note = "Publisher Copyright: {\textcopyright} 2019",

year = "2019",

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doi = "10.1016/j.compstruct.2019.01.018",

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T1 - Random fatigue damage accumulation analysis of composite thin-wall structures based on residual stiffness method

AU - Wu, Zengwen

AU - Fang, Guodong

AU - Fu, Maoqing

AU - Chen, Xiaojie

AU - Liang, Jun

AU - Lv, Dongkai

PY - 2019/3/1

Y1 - 2019/3/1

N2 - The damage accumulation and life prediction for C/SiC composite panels subjected to random vibration loading was studied by using the residual stiffness model in combination with critical failure stiffness ratios in the different stress levels. According to the results of stiffness degradation and material S-N curves for constant-amplitude fatigue loadings, a new residual stiffness model was established and extended to adapt random stress states by using an equivalent damage ratio algorithm in time domain. The stiffness degradation and material S-N curves were obtained by using constant amplitude fatigue experiments. Random vibration tests with limited-bandwidth excitation were conducted to verify the prediction model. Good agreement is observed compared with the results of 2D plain-woven C/SiC composite panel subjected to random vibration loadings.

AB - The damage accumulation and life prediction for C/SiC composite panels subjected to random vibration loading was studied by using the residual stiffness model in combination with critical failure stiffness ratios in the different stress levels. According to the results of stiffness degradation and material S-N curves for constant-amplitude fatigue loadings, a new residual stiffness model was established and extended to adapt random stress states by using an equivalent damage ratio algorithm in time domain. The stiffness degradation and material S-N curves were obtained by using constant amplitude fatigue experiments. Random vibration tests with limited-bandwidth excitation were conducted to verify the prediction model. Good agreement is observed compared with the results of 2D plain-woven C/SiC composite panel subjected to random vibration loadings.

KW - Composites materials

KW - Fatigue life

KW - Random fatigue

KW - Random vibration

KW - Residual stiffness

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EP - 556

JO - Composite Structures

JF - Composite Structures

ER -

Random fatigue damage accumulation analysis of composite thin-wall structures based on residual stiffness method

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