Microscopic instabilities in single crystal matrix composites

A finite strain micromechanical analysis is presented for the prediction of the loss of microscopic stability of a class of metal matrix composites that are subjected to axial compressive loading and undergoing large deformations. The metallic constituent behavior is modeled by the single crystal an...

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Published inInternational journal of solids and structures Vol. 304; p. 113035
Main Authors Aboudi, Jacob, Dodla, Srihari, Gilat, Rivka
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2024
Subjects
Bifurcation buckling
Finite strain analysis
Finite strain high-fidelity generalized method of cells (HFGMC)
Micromechanics analysis
Single crystal matrix composites
Finite strain analysis
Bifurcation buckling
Micromechanics analysis
Finite strain high-fidelity generalized method of cells (HFGMC)
Single crystal matrix composites
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Abstract A finite strain micromechanical analysis is presented for the prediction of the loss of microscopic stability of a class of metal matrix composites that are subjected to axial compressive loading and undergoing large deformations. The metallic constituent behavior is modeled by the single crystal anisotropic plasticity theory in which, due to the resolved shear stresses, plastic deformations occur along certain pre-defined slip planes. Thus, this incremental plasticity theory is capable of providing the effect of the applied axial loading on the induced shear stresses which dominate the microbuckling. The composites are assumed to possess slight imperfections at the interfaces, and in order to satisfy the interfacial conditions, a perturbation expansion is employed which yields zero and first order micromechanical analysis problems. The zero order problem corresponds to the micromechanical modeling of the composite with no imperfections, whereas the solution of the first order problem is utilized to obtain the critical stresses and deformations at which bifurcation buckling occurs. Both problems are solved by employing the finite strain high-fidelity generalized method of cells (HFGMC) micromechanics. Applications are given for various types of single crystal matrix composites including layered, particulate, continuous and short fiber composites. Finally, a comparison between the compressive strengths of a standard metal matrix boron/aluminum and SiC/single crystal composites is presented and discussed. •Micromechanical analysis is offered for the microbuckling of single crystal matrix composites.•The method of solution utilizes the finite strain HFGMC micromechanics.•Eigenvalues approach is not possible; hence a perturbation analysis is followed.•The method is applied on two types of single crystal matrices.
AbstractList A finite strain micromechanical analysis is presented for the prediction of the loss of microscopic stability of a class of metal matrix composites that are subjected to axial compressive loading and undergoing large deformations. The metallic constituent behavior is modeled by the single crystal anisotropic plasticity theory in which, due to the resolved shear stresses, plastic deformations occur along certain pre-defined slip planes. Thus, this incremental plasticity theory is capable of providing the effect of the applied axial loading on the induced shear stresses which dominate the microbuckling. The composites are assumed to possess slight imperfections at the interfaces, and in order to satisfy the interfacial conditions, a perturbation expansion is employed which yields zero and first order micromechanical analysis problems. The zero order problem corresponds to the micromechanical modeling of the composite with no imperfections, whereas the solution of the first order problem is utilized to obtain the critical stresses and deformations at which bifurcation buckling occurs. Both problems are solved by employing the finite strain high-fidelity generalized method of cells (HFGMC) micromechanics. Applications are given for various types of single crystal matrix composites including layered, particulate, continuous and short fiber composites. Finally, a comparison between the compressive strengths of a standard metal matrix boron/aluminum and SiC/single crystal composites is presented and discussed. •Micromechanical analysis is offered for the microbuckling of single crystal matrix composites.•The method of solution utilizes the finite strain HFGMC micromechanics.•Eigenvalues approach is not possible; hence a perturbation analysis is followed.•The method is applied on two types of single crystal matrices.
ArticleNumber 113035
Author Dodla, Srihari
Gilat, Rivka
Aboudi, Jacob
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  givenname: Rivka
  surname: Gilat
  fullname: Gilat, Rivka
  email: revka@tauex.tau.ac.il
  organization: Faculty of Engineering, Ariel University, Ariel 44837, Israel
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Keywords Finite strain analysis
Bifurcation buckling
Micromechanics analysis
Finite strain high-fidelity generalized method of cells (HFGMC)
Single crystal matrix composites
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Snippet A finite strain micromechanical analysis is presented for the prediction of the loss of microscopic stability of a class of metal matrix composites that are...
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SubjectTerms Bifurcation buckling
Finite strain analysis
Finite strain high-fidelity generalized method of cells (HFGMC)
Micromechanics analysis
Single crystal matrix composites
Title Microscopic instabilities in single crystal matrix composites
URI https://dx.doi.org/10.1016/j.ijsolstr.2024.113035
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