Eshelby's inhomogeneity model within Mindlin's first strain gradient elasticity theory and its applications in composite materials
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Publication:6663504
DOI10.1016/J.IJENGSCI.2024.104167MaRDI QIDQ6663504
Napo Bonfoh, Koami P. Dadabo, Hafid Sabar, Rodrigue Matadi-Boumbimba
Publication date: 14 January 2025
Published in: International Journal of Engineering Science (Search for Journal in Brave)
composite materialsMori-Tanaka homogenization schemeEshelby's inhomogeneity problemMindlin's first strain gradient elasticity theory
Cites Work
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- Solution of Eshelby's inclusion problem with a bounded domain and Eshelby's tensor for a spherical inclusion in a finite spherical matrix based on a simplified strain gradient elasticity theory
- Strain gradient solution for the Eshelby-type polyhedral inclusion problem
- Eshelby tensors for a spherical inclusion in microelongated elastic fields
- Green's function and Eshelby's tensor based on a simplified strain gradient elasticity theory
- A novel atomistic approach to determine strain-gradient elasticity constants: tabulation and comparison for various metals, semiconductors, silica, polymers and the (ir)relevance for nanotechnologies
- Elastic materials with couple-stresses
- Micropolar elastic fields due to a spherical inclusion
- Micropolar elastic fields due to a circular cylindrical inclusion
- Théorie des corps déformables.
- Inclusion problem in second gradient elasticity
- Inclusion problem for a generalized strain gradient elastic continuum
- Dilatation gradient elasticity theory
- On the well posedness of static boundary value problem within the linear dilatational strain gradient elasticity
- Variational formulation of a simplified strain gradient elasticity theory and its application to a pressurized thick-walled cylinder problem
- Inclusions and inhomogeneities in strain gradient elasticity with couple stresses and related problems
- Theories of elasticity with couple-stress
- A new homogenization method based on a simplified strain gradient elasticity theory
- Eshelby tensors for a spherical inclusion in microstretch elastic fields
- On first strain-gradient theories in linear elasticity
- Size-dependent elastic fields of embedded inclusions in isotropic chiral solids
- Effects of couple-stresses in linear elasticity
- Micro-structure in linear elasticity
- Theory of thermo-microstretch elastic solids
- The determination of the elastic field of an ellipsoidal inclusion, and related problems
- Generalized Hooke's law for isotropic second gradient materials
- Elastic field of a spherical inclusion with non-uniform eigenfields in second strain gradient elasticity
- Size-dependent Eshelby’s ellipsoidal inclusion problem based on generalized first strain gradient elasticity theory
- Exact solution of Eshelby's inhomogeneity problem in strain gradient theory of elasticity and its applications in composite materials
- Mathematical modeling of the elastic properties of cubic crystals at small scales based on the toupin-Mindlin anisotropic first strain gradient elasticity
- Variant of strain gradient elasticity with simplified formulation of traction boundary value problems
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