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A lattice-based micromechanical continuum formulation for stress-driven mass transport in polycrystalline solids - MaRDI portal

A lattice-based micromechanical continuum formulation for stress-driven mass transport in polycrystalline solids

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Publication:5939627

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DOI10.1016/S0022-5096(00)00081-8zbMath1015.74005MaRDI QIDQ5939627

Lori Bassman, Michael Deal, Krishna Garikipati

Publication date: 11 August 2003

Published in: Journal of the Mechanics and Physics of Solids (Search for Journal in Brave)

zbMATH Keywords

diffusion finite element method thermodynamics binary vacancy atom mixture lattice-based micromechanical continuum formulation polycrystalline solids self-diffusion stress-driven mass transport

Mathematics Subject Classification ID

Crystalline structure (74E15) Finite element methods applied to problems in solid mechanics (74S05) Thermodynamics in solid mechanics (74A15) Micromechanical theories (74A60)

Related Items (8)

A coupled model of diffusional creep of polycrystalline solids based on climb of dislocations at grain boundaries ⋮ Sintering at particle scale: an Eulerian computing framework to deal with strong topological and material discontinuities ⋮ Continuum mechanical modeling of laser-pulsed heating in polycrystals: A multi-physics problem of coupling diffusion, mechanics, and thermal waves ⋮ Advances in the numerical treatment of grain-boundary migration: coupling with mass transport and mechanics ⋮ Modeling microstructural evolution by rearranging point defects in elastic media ⋮ A continuum treatment of growth in biological tissue: the coupling of mass transport and mechanics ⋮ A local and global well-posedness results for the general stress-assisted diffusion systems ⋮ A simple solution strategy for coupled piezo-diffusion in elastic solids

Uses Software

FEAP

Cites Work

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