A nanoscale mechanism of hydrogen embrittlement in metals

Acta Materialia

Volumn 59, Issue 4, 2011, Pages 1557-1569

  Song, Jun ^a   Curtin, W A ^a  

^a Brown University   (United States)

Author keywords

Diffusion; Dislocation; Ductility; Fracture; Hydrogen embrittlement

Indexed keywords

APPLIED LOADS; ATOMISTIC SIMULATIONS; CLEAVAGE FRACTURE; CONCEPTUAL MODEL; DISLOCATION; DISLOCATION EMISSIONS; DUCTILE-TO-BRITTLE TRANSITION; FRACTURE MODE; H DIFFUSION; HYDROGEN ACCUMULATION; HYDROGEN CHEMICAL POTENTIALS; HYDROGEN DISTRIBUTION; INTERATOMIC POTENTIAL; KINETIC ANALYSIS; LOAD LEVELS; LOADING PARAMETERS; LOADING RATE; MATERIAL PARAMETER; METALLIC SYSTEMS; MICROCRACK TIP; MOLECULAR STATICS; NANO-SCALE MECHANISM; NEW MODEL; NOTCH RADII; PREDICTIVE MECHANISMS; SINGLE CRYSTAL NI; TENSILE SPECIMENS; TILT GRAIN BOUNDARY;

BRITTLE FRACTURE; CHEMICAL ANALYSIS; COMPUTER SIMULATION; CRACK PROPAGATION; CRACK TIPS; CRACKING (CHEMICAL); DIFFUSION; DISLOCATIONS (CRYSTALS); DUCTILE FRACTURE; DUCTILITY; FRACTURE TOUGHNESS; GRAIN BOUNDARIES; HYDROGEN; LOADING; SINGLE CRYSTALS;

HYDROGEN EMBRITTLEMENT;

EID: 78651393229     PISSN: 13596454     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.actamat.2010.11.019     Document Type: Article

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