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Volumn 88, Issue 30-32, 2008, Pages 3565-3583
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Fatigue crack growth from a cracked elastic particle into a ductile matrix
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Author keywords
Crack growth; Cracked particle; Defects in solids; Discrete dislocations
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Indexed keywords
CRACKING (CHEMICAL);
DISLOCATIONS (CRYSTALS);
FATIGUE CRACK PROPAGATION;
FATIGUE OF MATERIALS;
GROWTH (MATERIALS);
PLASTICITY;
REINFORCEMENT;
SINGLE CRYSTALS;
TWO DIMENSIONAL;
CRACK PROPAGATION;
CRACKS;
CRYSTALLINE MATERIALS;
COHESIVE SURFACES;
CRACK ADVANCES;
CRACK GROWTH;
CRACKED PARTICLE;
CYCLIC CRACK GROWTHS;
DECREASING EFFECTS;
DEFECTS IN SOLIDS;
DISCRETE DISLOCATION PLASTICITIES;
DISCRETE DISLOCATIONS;
DUCTILE MATRIXES;
ELASTIC ISOTROPIC MATERIALS;
ELASTIC MISMATCHES;
ELASTIC MODULUS MISMATCHES;
ELASTIC PARTICLES;
EXPERIMENTAL OBSERVATIONS;
FATIGUE CRACK GROWTHS;
LINE SINGULARITIES;
MATRIX PHASIS;
SIZE EFFECTS;
SMALL SIZES;
STRESS INTENSITIES;
CRACKS;
FATIGUE CRACK PROPAGATION;
COHESIVE SURFACE;
CRACK ADVANCE;
CYCLIC CRACK GROWTH;
DECREASING EFFECT;
DEFECTS IN SOLIDS;
DISCRETE DISLOCATION PLASTICITY;
DISCRETE DISLOCATIONS;
DUCTILE MATRIX;
ELASTIC ISOTROPIC MATERIALS;
ELASTIC MISMATCH;
ELASTIC MODULUS MISMATCH;
ELASTIC PARTICLES;
EXPERIMENTAL OBSERVATION;
LINE SINGULARITY;
MATRIX PHASIS;
MICRON SCALE;
MICRON-SCALE PARTICLES;
POWER-LAW BEHAVIOR;
SIZE EFFECTS;
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EID: 57849151650
PISSN: 14786435
EISSN: 14786443
Source Type: Journal
DOI: 10.1080/14786430802320127 Document Type: Article |
Times cited : (30)
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References (48)
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