A phenomenological dislocation theory for martensitic transformation in ductile materials: From micro- to macroscopic description

Philosophical Magazine

Volumn 88, Issue 30-32, 2008, Pages 3479-3512

  Cherkaoui, M ^a   Soulami, A ^b   Zeghloul, A ^b   Khaleel, M A ^c  

^a GEORGIA INSTITUTE OF TECHNOLOGY   (France)

^b UNIVERSITÉ DE LORRAINE   (France)

^c PACIFIC NORTHWEST NATIONAL LABORATORY   (United States)

Author keywords

Martensitic transformation; Micromechanics; TRIP steels; Viscoplastic model; Yield surfaces

Indexed keywords

CARBON FIBER REINFORCED PLASTICS; DIFFERENTIAL EQUATIONS; DUCTILITY; HOMOGENIZATION METHOD; MARTENSITE; METAL FORMING; MICROMECHANICS; MICROSTRUCTURE; MODULAR CONSTRUCTION; VISCOPLASTICITY; CONSTITUTIVE EQUATIONS; CRYSTALLINE MATERIALS; MARTENSITIC STEEL;

DIFFERENT SCALES; DISLOCATION THEORIES; DUCTILE MATERIALS; EVOLUTION EQUATIONS; HOMOGENIZATION TECHNIQUES; INELASTIC STRAINS; INTERNAL STRESSES; INTERNAL VARIABLES; MACROSCOPIC MODELS; MARTENSITIC PHASE TRANSFORMATIONS; MATERIAL RESPONSES; METALLIC MATERIALS; MODULAR STRUCTURES; OVERALL PROPERTIES; PHASE COMPOSITE MATERIALS; PHASE TRANSFORMATIONS; PHENOMENOLOGICAL APPROACHES; PLASTIC ACCOMMODATIONS; PREDICTIVE CAPABILITIES; PRINCIPAL FEATURES; TRIP STEELS; TWO PHASES; VISCO PLASTICS; VISCOPLASTIC CONSTITUTIVE EQUATIONS; VISCOPLASTIC MODEL; VISCOPLASTIC SELF-CONSISTENT; YIELD SURFACES;

MARTENSITIC TRANSFORMATIONS;

DIFFERENT SCALE; DISLOCATION THEORY; DUCTILE MATERIALS; EVOLUTION EQUATIONS; HOMOGENIZATION TECHNIQUES; INELASTIC STRAIN; INTERNAL VARIABLES; MACROSCOPIC MODEL; MARTENSITIC PHASE TRANSFORMATIONS; MATERIAL RESPONSE; METALLIC MATERIAL; MODULAR STRUCTURES; OVERALL PROPERTIES; PLASTIC ACCOMMODATION; PREDICTIVE CAPABILITIES; STRENGTHENING PHASE; TRANSFORMATION-INDUCED PLASTICITY; TRIP-STEEL; TWO PHASE COMPOSITES; VISCO-PLASTIC SELF-CONSISTENT; VISCOPLASTIC; VISCOPLASTIC CONSTITUTIVE EQUATION; VISCOPLASTIC MODELS; YIELD SURFACE;

EID: 57849132704     PISSN: 14786435     EISSN: 14786443     Source Type: Journal    
DOI: 10.1080/14786430802043646     Document Type: Article

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