A finite element study of microstructure-sensitive plasticity and crack nucleation in fretting

Computational Materials Science

Volumn 50, Issue 8, 2011, Pages 2439-2458

  McCarthy, O J ^a   McGarry, J P ^a   Leen, S B ^a  

^a NATIONAL UNIVERSITY OF IRELAND   (Ireland)

Author keywords

Crack nucleation; Crystal plasticity; Cyclic plasticity; Fretting

Indexed keywords

CONTACT PRESSURES; CONTINUUM PLASTICITY; CRACK NUCLEATION; CRITICAL VALUE; CRYSTAL PLASTICITY; CRYSTAL PLASTICITY MODELS; CRYSTALLOGRAPHIC SLIP; CYCLIC PLASTICITY; EXISTING METHOD; FATIGUE CRACK INITIATION; FATIGUE LIFE PREDICTION; FCC UNITS; FINITE ELEMENT MODELLING; FINITE-ELEMENT STUDY; FRETTING; FRICTIONAL CONTACT MODEL; INDICATOR PARAMETERS; LOW CYCLE FATIGUES; MICRO-STRUCTURAL; NUMBER OF CYCLES; PARTIAL SLIP; PLASTIC SLIP; POLYCRYSTAL PLASTICITY; PREFERRED ORIENTATIONS; UNIT CELLS;

CRACK INITIATION; CRYSTAL MICROSTRUCTURE; FATIGUE CRACK PROPAGATION; FATIGUE OF MATERIALS; FORECASTING; MAGNESIUM PRINTING PLATES; NUCLEATION; PLASTICITY; STAINLESS STEEL; STRESS CORROSION CRACKING; THERMOELECTRICITY;

CRACKS;

EID: 79955615993     PISSN: 09270256     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.commatsci.2011.03.026     Document Type: Article

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