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Results: 1-11 |
Results: 11
A study of a hamiltonian model for martensitic phase transformations including microkinetic energy
Authors: Theil, F Levitas, VI
Citation: F. Theil et Vi. Levitas, A study of a hamiltonian model for martensitic phase transformations including microkinetic energy, MATH MECH S, 5(3), 2000, pp. 337-368
Special issue: Phase transitions and other structural changes in inelasticmaterials
Authors: Levitas, VI Stein, E
Citation: Vi. Levitas et E. Stein, Special issue: Phase transitions and other structural changes in inelasticmaterials, INT J PLAST, 16(7-8), 2000, pp. 721-722
Structural changes without stable intermediate state in inelastic material. Part I. General thermomechanical and kinetic approaches
Authors: Levitas, VI
Citation: Vi. Levitas, Structural changes without stable intermediate state in inelastic material. Part I. General thermomechanical and kinetic approaches, INT J PLAST, 16(7-8), 2000, pp. 805-849
Structural changes without stable intermediate state in inelastic material. Part II. Applications to displacive and diffusional-displacive phase transformations, strain-induced chemical reactions and ductile fracture
Authors: Levitas, VI
Citation: Vi. Levitas, Structural changes without stable intermediate state in inelastic material. Part II. Applications to displacive and diffusional-displacive phase transformations, strain-induced chemical reactions and ductile fracture, INT J PLAST, 16(7-8), 2000, pp. 851-892
Structural changes in elastoplastic material: a unified finite-element approach to phase transformation, twinning and fracture
Authors: Idesman, AV Levitas, VI Stein, E
Citation: Av. Idesman et al., Structural changes in elastoplastic material: a unified finite-element approach to phase transformation, twinning and fracture, INT J PLAST, 16(7-8), 2000, pp. 893-949
Thermomechanical and kinetic approaches to diffusional-displacive phase transitions in inelastic materials
Authors: Levitas, VI
Citation: Vi. Levitas, Thermomechanical and kinetic approaches to diffusional-displacive phase transitions in inelastic materials, MECH RES CO, 27(2), 2000, pp. 217-227
Finite-element-analysis of appearance and growth of a martensitic plate inan austenitic matrix
Authors: Idesman, AV Levitas, VI Stein, E
Citation: Av. Idesman et al., Finite-element-analysis of appearance and growth of a martensitic plate inan austenitic matrix, Z ANG MA ME, 80, 2000, pp. S189-S192
Shape memory alloys: Micromechanical modeling and numerical analysis of structures
Authors: Levitas, VI Idesman, AV Stein, E
Citation: Vi. Levitas et al., Shape memory alloys: Micromechanical modeling and numerical analysis of structures, J IN MAT SY, 10(12), 1999, pp. 983-996
Elastoplastic materials with martensitic phase transition and twinning at finite strains: numerical solution with the finite element method
Authors: Idesman, AV Levitas, VI Stein, E
Citation: Av. Idesman et al., Elastoplastic materials with martensitic phase transition and twinning at finite strains: numerical solution with the finite element method, COMPUT METH, 173(1-2), 1999, pp. 71-98
Continuum modeling of strain-induced martensitic transformation at shear-band intersections
Authors: Levitas, VI Idesman, AV Olson, GB
Citation: Vi. Levitas et al., Continuum modeling of strain-induced martensitic transformation at shear-band intersections, ACT MATER, 47(1), 1998, pp. 219-233
A simple micromechanical model for pseudoelastic behavior of CuZnAl alloy
Authors: Levitas, VI Idesman, AV Stein, E Spielfeld, J Hornbogen, E
Citation: Vi. Levitas et al., A simple micromechanical model for pseudoelastic behavior of CuZnAl alloy, J IN MAT SY, 9(5), 1998, pp. 324-334
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