A review on micromechanical modelling of progressive failure in unidirectional fibre-reinforced composites

The recent decades have seen various attempts at the numerical modelling of fibre-reinforced polymer (FRP) composites in the aerospace, auto and marine sectors due to their excellent mechanical properties. However, it is still challenging to accurately predict the failure of the composites because o...

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Published inComposites. Part C, Open access Vol. 10; p. 100348
Main Authors Wan, Lei, Ismail, Yaser, Sheng, Yong, Ye, Jianqiao, Yang, Dongmin
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2023
Elsevier
Subjects
Discrete element method (DEM)
Fibre reinforced polymer composite (FRP)
Finite element method (FEM)
Multiaxial loadings
Progressive failure
Finite element method (FEM)
Progressive failure
Discrete element method (DEM)
Multiaxial loadings
Fibre reinforced polymer composite (FRP)
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Abstract The recent decades have seen various attempts at the numerical modelling of fibre-reinforced polymer (FRP) composites in the aerospace, auto and marine sectors due to their excellent mechanical properties. However, it is still challenging to accurately predict the failure of the composites because of their anisotropic and inhomogeneous characteristics, multiple failure modes and their interaction, especially under multiaxial loading conditions. Micromechanics-based numerical models, such as representative volume elements (RVEs), were developed to understand the progressive failure mechanisms of composites, and assessing existing failure criteria. To this aim, this review paper summarises the development of micromechanics-based RVE modelling of unidirectional (UD) FRP composites reported in the literature, with a focus on those models developed using finite element (FE) and discrete element (DE) methods. The generation of fibre spatial distribution, constitutive models of material constituents as well as periodic boundary conditions are briefly introduced. The progressive failure mechanisms of UD FRP composites simulated by RVEs under various loadings are discussed and the comparison of failure envelopes predicted by numerical results and classical failure criteria are reviewed.
AbstractList The recent decades have seen various attempts at the numerical modelling of fibre-reinforced polymer (FRP) composites in the aerospace, auto and marine sectors due to their excellent mechanical properties. However, it is still challenging to accurately predict the failure of the composites because of their anisotropic and inhomogeneous characteristics, multiple failure modes and their interaction, especially under multiaxial loading conditions. Micromechanics-based numerical models, such as representative volume elements (RVEs), were developed to understand the progressive failure mechanisms of composites, and assessing existing failure criteria. To this aim, this review paper summarises the development of micromechanics-based RVE modelling of unidirectional (UD) FRP composites reported in the literature, with a focus on those models developed using finite element (FE) and discrete element (DE) methods. The generation of fibre spatial distribution, constitutive models of material constituents as well as periodic boundary conditions are briefly introduced. The progressive failure mechanisms of UD FRP composites simulated by RVEs under various loadings are discussed and the comparison of failure envelopes predicted by numerical results and classical failure criteria are reviewed.
ArticleNumber 100348
Author Ye, Jianqiao
Wan, Lei
Ismail, Yaser
Sheng, Yong
Yang, Dongmin
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  surname: Wan
  fullname: Wan, Lei
  organization: Institute for Materials and Processes, School of Engineering, University of Edinburgh, Edinburgh, EH9 3FB, UK
– sequence: 2
  givenname: Yaser
  surname: Ismail
  fullname: Ismail, Yaser
  organization: Groundforce Shorco, Gildersome, Leeds LS27 7HJ, UK
– sequence: 3
  givenname: Yong
  surname: Sheng
  fullname: Sheng, Yong
  organization: School of Computer Science, University of Hull, Hull, HU6 7TQ, UK
– sequence: 4
  givenname: Jianqiao
  surname: Ye
  fullname: Ye, Jianqiao
  organization: School of Engineering, Lancaster University, Lancaster, LA1 4YW, UK
– sequence: 5
  givenname: Dongmin
  surname: Yang
  fullname: Yang, Dongmin
  email: Dongmin.Yang@ed.ac.uk
  organization: Institute for Materials and Processes, School of Engineering, University of Edinburgh, Edinburgh, EH9 3FB, UK
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Keywords Finite element method (FEM)
Progressive failure
Discrete element method (DEM)
Multiaxial loadings
Fibre reinforced polymer composite (FRP)
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Snippet The recent decades have seen various attempts at the numerical modelling of fibre-reinforced polymer (FRP) composites in the aerospace, auto and marine sectors...
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StartPage 100348
SubjectTerms Discrete element method (DEM)
Fibre reinforced polymer composite (FRP)
Finite element method (FEM)
Multiaxial loadings
Progressive failure
Title A review on micromechanical modelling of progressive failure in unidirectional fibre-reinforced composites
URI https://dx.doi.org/10.1016/j.jcomc.2023.100348
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