Parametric numerical simulations of TRIP and its interaction with classical plasticity in martensitic transformation
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Publication:885983
DOI10.1016/j.euromechsol.2006.10.004zbMath1114.74009OpenAlexW1975724418MaRDI QIDQ885983
Lakhdar Taleb, Fabrice Barbe, Salem Meftah, François Sidoroff
Publication date: 14 June 2007
Published in: European Journal of Mechanics. A. Solids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.euromechsol.2006.10.004
Plastic materials, materials of stress-rate and internal-variable type (74C99) Analysis of microstructure in solids (74N15) Crystals in solids (74N05)
Related Items (9)
Numerical modelling of the plasticity induced during diffusive transformation. Case of a cubic array of nuclei ⋮ Parametric numerical simulations of TRIP and its interaction with classical plasticity in martensitic transformation ⋮ A numerical modelling of 3D polycrystal-to-polycrystal diffusive phase transformations involving crystal plasticity ⋮ Semi phenomenological modelling of the behavior of TRIP steels ⋮ Crystal plasticity finite element modeling of mechanically induced martensitic transformation (MIMT) in metastable austenite ⋮ A finite element methodology to incorporate kinematic activation of discrete deformation twins in a crystal plasticity framework ⋮ Material behavior of steel - modeling of complex phenomena and thermodynamic consistency ⋮ Thermo-mechanical behaviour of TRIP 1000 steel sheets subjected to low velocity perforation by conical projectiles at different temperatures ⋮ Numerical modelling of the plasticity induced during diffusive transformation. An ensemble averaging approach for the case of random arrays of nuclei
Uses Software
Cites Work
- Parametric numerical simulations of TRIP and its interaction with classical plasticity in martensitic transformation
- A micromechanical modeling of the Greenwood--Johnson mechanism in transformation induced plasticity.
- Experimental study of the phase transformation plasticity of 16MND5 low carbon steel induced by proportional and nonproportional biaxial loading paths
- New investigations on transformation induced plasticity and its interaction with classical plasticity
- Object-Oriented Programming Applied to the Finite Element Method Part II. Application to Material Behaviors
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