A constitutive model for elastoplastic-damage coupling effect of unidirectional fiber-reinforced polymer matrix composites

Yanfei Chen; Yunong Zhao; Shigang Ai; Chunwang He; Yong Tao; Yazheng Yang; Daining Fang

doi:10.1016/j.compositesa.2019.105736

A constitutive model for elastoplastic-damage coupling effect of unidirectional fiber-reinforced polymer matrix composites

Yanfei Chen, Yunong Zhao, Shigang Ai^*, Chunwang He, Yong Tao, Yazheng Yang, Daining Fang

^*此作品的通讯作者

先进结构技术研究院

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34 引用（Scopus）

摘要

In this paper, an elastoplastic-damage coupling constitutive model for unidirectional fiber-reinforced polymer matrix composites (UD FRPs) is presented, which both considers the plastic-hardening and damage-softening processes. Tension-compression asymmetry and shear strength increase due to transverse compression are observed under off-axis tensile/compressive tests of UD E-glass/YPH-200. Therefore, a four-parameter plastic yield criterion considering these two effects is proposed. Applying this model to predict the off-axis tensile/compressive responses of present tests provides good agreement with experimental curves. In addition, we give a novel definition of shear damage variable based on Puck failure theory and discuss it in detail. Further, we develop a four-parameter matrix failure criterion for UD FRPs and exactly predict the off-axis failure strength.

源语言	英语
文章编号	105736
期刊	Composites Part A: Applied Science and Manufacturing
卷	130
DOI	https://doi.org/10.1016/j.compositesa.2019.105736
出版状态	已出版 - 3月 2020

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title = "A constitutive model for elastoplastic-damage coupling effect of unidirectional fiber-reinforced polymer matrix composites",

abstract = "In this paper, an elastoplastic-damage coupling constitutive model for unidirectional fiber-reinforced polymer matrix composites (UD FRPs) is presented, which both considers the plastic-hardening and damage-softening processes. Tension-compression asymmetry and shear strength increase due to transverse compression are observed under off-axis tensile/compressive tests of UD E-glass/YPH-200. Therefore, a four-parameter plastic yield criterion considering these two effects is proposed. Applying this model to predict the off-axis tensile/compressive responses of present tests provides good agreement with experimental curves. In addition, we give a novel definition of shear damage variable based on Puck failure theory and discuss it in detail. Further, we develop a four-parameter matrix failure criterion for UD FRPs and exactly predict the off-axis failure strength.",

keywords = "Constitutive model, Elastoplastic-damage coupling, Fiber-reinforced polymer matrix composites",

author = "Yanfei Chen and Yunong Zhao and Shigang Ai and Chunwang He and Yong Tao and Yazheng Yang and Daining Fang",

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T1 - A constitutive model for elastoplastic-damage coupling effect of unidirectional fiber-reinforced polymer matrix composites

AU - Chen, Yanfei

AU - Zhao, Yunong

AU - Ai, Shigang

AU - He, Chunwang

AU - Tao, Yong

AU - Yang, Yazheng

AU - Fang, Daining

PY - 2020/3

Y1 - 2020/3

N2 - In this paper, an elastoplastic-damage coupling constitutive model for unidirectional fiber-reinforced polymer matrix composites (UD FRPs) is presented, which both considers the plastic-hardening and damage-softening processes. Tension-compression asymmetry and shear strength increase due to transverse compression are observed under off-axis tensile/compressive tests of UD E-glass/YPH-200. Therefore, a four-parameter plastic yield criterion considering these two effects is proposed. Applying this model to predict the off-axis tensile/compressive responses of present tests provides good agreement with experimental curves. In addition, we give a novel definition of shear damage variable based on Puck failure theory and discuss it in detail. Further, we develop a four-parameter matrix failure criterion for UD FRPs and exactly predict the off-axis failure strength.

AB - In this paper, an elastoplastic-damage coupling constitutive model for unidirectional fiber-reinforced polymer matrix composites (UD FRPs) is presented, which both considers the plastic-hardening and damage-softening processes. Tension-compression asymmetry and shear strength increase due to transverse compression are observed under off-axis tensile/compressive tests of UD E-glass/YPH-200. Therefore, a four-parameter plastic yield criterion considering these two effects is proposed. Applying this model to predict the off-axis tensile/compressive responses of present tests provides good agreement with experimental curves. In addition, we give a novel definition of shear damage variable based on Puck failure theory and discuss it in detail. Further, we develop a four-parameter matrix failure criterion for UD FRPs and exactly predict the off-axis failure strength.

KW - Constitutive model

KW - Elastoplastic-damage coupling

KW - Fiber-reinforced polymer matrix composites

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A constitutive model for elastoplastic-damage coupling effect of unidirectional fiber-reinforced polymer matrix composites

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