Analytical Solution for the Stress Field around a Hard Spherical Particle in a Metal Matrix Composite Incorporating Size and Finite Volume Effects
DOI10.1177/1081286507086906zbMath1161.74349OpenAlexW2093674151MaRDI QIDQ3625817
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Publication date: 22 May 2009
Published in: Mathematics and Mechanics of Solids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1177/1081286507086906
elasticitystress concentrationmetal matrix compositesize effectgradient plasticityinclusionstrain-hardeningspherical particle
Inhomogeneity in solid mechanics (74E05) Composite and mixture properties (74E30) Explicit solutions of equilibrium problems in solid mechanics (74G05)
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Cites Work
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- On shear bands in ductile materials
- A study of lower-order strain gradient plasticity theories by the method of characteristics
- Stress analysis of particles in metals
- A variational principle for gradient plasticity
- A phenomenological theory for strain gradient effects in plasticity
- Asymptotic stress analysis of two phase materials
- A conventional theory of mechanism-based strain gradient plasticity.
- Strain gradient plasticity solution for an internally pressurized thick-walled spherical shell of an elastic--plastic material.
- Elasto-plastic analysis of an internally pressurized thick-walled cylinder using a strain gradient plasticity theory.
- Size effects on stress concentration induced by a prolate ellipsoidal particle and void nucleation mechanism
- Mechanism-based strain gradient plasticity. I: Theory
- Stress concentration induced by an elastic spheroidal particle in a plastically deforming solid
- Plasticity at the micron scale
- The inelastic inclusion problem
- Are Lower-Order Gradient Theories of Plasticity Really Lower Order?
- A reformulation of strain gradient plasticity.
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