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Volumn 60, Issue 1, 2012, Pages 293-305
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Microstructure-sensitive extreme-value probabilities of high-cycle fatigue for surface vs. subsurface crack formation in duplex Ti-6Al-4V
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Author keywords
Crystal plasticity; Extreme value statistics; High cycle fatigue; Texture; Ti 6Al 4V
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Indexed keywords
CORRELATION FUNCTION;
CRYSTAL PLASTICITY;
CRYSTALLOGRAPHIC MICROSTRUCTURE;
CYCLIC PLASTIC STRAIN;
DRIVING FORCES;
EARLY GROWTH;
EXTREME VALUE STATISTICS;
FAILURE PROBABILITY;
FATIGUE CRACKS;
GRAIN MISORIENTATION;
GRAIN ORIENTATION;
GRAIN SIZE;
HIGH-CYCLE FATIGUES;
INDICATOR PARAMETERS;
LENGTH SCALE;
MATERIAL SYSTEMS;
MICROSTRUCTURE ATTRIBUTES;
NONLOCAL;
POLYCRYSTALLINE METALS;
POLYCRYSTALLINE PLASTICITY MODEL;
REPRESENTATIVE VOLUME ELEMENTS;
STATISTICAL VOLUME ELEMENTS;
SUBSURFACE CRACKS;
SURFACE CRACKS;
TI-6AL-4V;
ALUMINUM;
BOUNDARY CONDITIONS;
COMPUTER SIMULATION;
CRACKS;
CRYSTAL MICROSTRUCTURE;
ESTIMATION;
FATIGUE CRACK PROPAGATION;
FINITE ELEMENT METHOD;
PLASTICITY;
SINGLE CRYSTALS;
SURFACE DEFECTS;
SURFACES;
TEXTURES;
TITANIUM ALLOYS;
PROBABILITY DISTRIBUTIONS;
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EID: 80055025148
PISSN: 13596454
EISSN: None
Source Type: Journal
DOI: 10.1016/j.actamat.2011.09.031 Document Type: Article |
Times cited : (70)
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References (32)
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