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Volumn , Issue , 2008, Pages 432-
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Development of microstructure-and mechanism-based modeling tools for plastic deformation in multiphase alloys
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Author keywords
[No Author keywords available]
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Indexed keywords
ABS RESINS;
ACTIVATION ENERGY;
ALLOYS;
CERIUM ALLOYS;
COMPUTATIONAL METHODS;
CREEP;
DEFORMATION;
FLOW INTERACTIONS;
MACHINE DESIGN;
MATERIALS PROPERTIES;
METALLIC COMPOUNDS;
MICROSTRUCTURAL EVOLUTION;
MICROSTRUCTURE;
MOSFET DEVICES;
PLASTIC DEFORMATION;
PLASTICS;
REACTION KINETICS;
STACKING FAULTS;
SUPERALLOYS;
TITANIUM ALLOYS;
AB INITIO CALCULATIONS;
ALLOY DESIGNS;
CORE STRUCTURES;
CREEP DEFORMATIONS;
CUTTING MECHANISMS;
DEFORMATION PROCESSES;
DISLOCATION ACTIVITIES;
DISLOCATION GEOMETRIES;
EXPERIMENTAL CHARACTERIZATIONS;
GENERALIZED STACKING FAULT ENERGIES;
KINETIC PATHWAYS;
MICRO MECHANISMS;
MICROSCOPIC PHASE FIELDS;
MICROSTRUCTURAL FEATURES;
MINIMUM ENERGY PATHS;
MODELING TOOLS;
MULTIPHASE ALLOYS;
MULTIPHASE MATERIALS;
MULTIPHASE MICROSTRUCTURES;
NI-BASE SUPERALLOYS;
NUDGED ELASTIC BAND METHODS;
PHASE ALLOYS;
PRECIPITATE MICROSTRUCTURES;
PREDICTIVE POWERS;
QUANTITATIVE CHARACTERIZATIONS;
SPATIAL VARIATIONS;
MECHANICS;
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EID: 56649086704
PISSN: None
EISSN: None
Source Type: Conference Proceeding
DOI: None Document Type: Conference Paper |
Times cited : (1)
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References (1)
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