Analytical elastic-plastic analyses of a spherical shell subjected to hydrostatic tension based on a strain gradient model for plastic metals
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Publication:2805134
DOI10.1002/ZAMM.201400131zbMath1335.74041OpenAlexW1510593970MaRDI QIDQ2805134
Publication date: 10 May 2016
Published in: ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1002/zamm.201400131
Cites Work
- A new numerical implementation of a second-gradient model for plastic porous solids, with an application to the simulation of ductile rupture tests
- Numerical implementation and assessment of the GLPD micromorphic model of ductile rupture
- Numerical implementation and assessment of a phenomenological nonlocal model of ductile rupture
- Axi-symmetric problems in elastic materials of grade two
- 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.
- Accelerated void growth in porous ductile solids containing two populations of cavities
- Variational formulation of a simplified strain gradient elasticity theory and its application to a pressurized thick-walled cylinder problem
- Analytical solutions for the thick-walled cylinder problem modeled with an isotropic elastic second gradient constitutive equation
- Cavity expansion of a gradient-dependent solid cylinder
- Effects of strain-gradient on the stress-concentration at a cylindrical hole in a field of uniaxial tension
- Some new applications of the GLPD micromorphic model of ductile fracture
- Analytical Solution for a Pressurized Thick-Walled Spherical Shell Based on a Simplified Strain Gradient Elasticity Theory
- An analytic benchmark solution to the problem of a generalized plane strain hollow cylinder made of micromorphic plastic porous metal and subjected to axisymmetric loading conditions
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