Simulation of polycrystal deformation with grain and grain boundary effects

International Journal of Plasticity

Volumn 27, Issue 9, 2011, Pages 1328-1354

  Lim, H ^a   Lee, M G ^b   Kim, J H ^c   Adams, B L ^d   Wagoner, R H ^a  

^a The Ohio State University   (United States)

^b Pohang University of Science and Technology (POSTECH)   (South Korea)

^c Korea Institute of Material Science   (South Korea)

^d Brigham Young University   (United States)

Author keywords

Dislocation density; Grain boundary; Hall Petch law; Meso scale simulation

Indexed keywords

3D ARRAYS; ANALYTICAL SOLUTIONS; BACK STRESS; COARSE-GRAINED; CPU TIME; CRYSTAL PLASTICITY FINITE ELEMENT; DISLOCATION DENSITIES; FINITE ELEMENT FORMULATIONS; GRAIN BOUNDARY EFFECTS; HALL-PETCH EFFECTS; HALL-PETCH LAW; HALL-PETCH SLOPE; LATTICE CURVATURE; LENGTH SCALE; LOCAL STRESS; MESOSCALE SIMULATION; MOBILE PARTS; MODEL PREDICTION; PILE-UPS; PRACTICAL MATERIALS; STRENGTHENING EFFECT; STRESS-STRAIN RESPONSE; TWO-SCALE MODEL; UNSOLVED PROBLEMS;

CONSTITUTIVE EQUATIONS; ELASTICITY; FINITE ELEMENT METHOD; GRAIN BOUNDARIES; GRAIN SIZE AND SHAPE; POLYCRYSTALS; STRAIN; STRUCTURAL DESIGN; THREE DIMENSIONAL;

DISLOCATIONS (CRYSTALS);

EID: 79958088300     PISSN: 07496419     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijplas.2011.03.001     Document Type: Article

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