|
Volumn 57, Issue 14, 2009, Pages 4233-4247
|
Using image-based computational modeling to study microstructure-yield correlations in metals
|
Author keywords
Finite element modeling (FEM); Image based modeling; Microstructure; Titanium alloys; Yield phenomena
|
Indexed keywords
APPLIED LOADING;
COMPUTATIONAL MODELING;
CRYSTAL PLASTICITY;
DATA-MINING TOOLS;
FINITE-ELEMENT MODELING (FEM);
FINITE-ELEMENT MODELS;
HIGH FIDELITY;
IMAGE-BASED;
IMAGE-BASED MODELING;
LOADING CONDITION;
LOCAL EFFECTS;
MATERIAL RESPONSE;
MECHANICAL BEHAVIOR;
MESOSCALE;
METALLIC GRAINS;
MICRO-SCALE HETEROGENEITY;
MICROSTRUCTURAL FEATURES;
MULTIPLE LOADING;
PLASTIC SLIP;
POLYCRYSTALLINE METALS;
TI ALLOYS;
YIELD PHENOMENA;
ALLOYS;
ELECTRIC CONVERTERS;
FINITE ELEMENT METHOD;
GRAIN BOUNDARIES;
IMPLANTS (SURGICAL);
MICROSTRUCTURAL EVOLUTION;
MINING;
PLASTIC FLOW;
PLASTICS;
STEEL STRUCTURES;
TITANIUM;
TITANIUM ALLOYS;
THREE DIMENSIONAL;
|
EID: 67650490767
PISSN: 13596454
EISSN: None
Source Type: Journal
DOI: 10.1016/j.actamat.2009.05.021 Document Type: Article |
Times cited : (51)
|
References (45)
|