Determination of fatigue mesoscopic mechanical properties of an austenitic stainless steel using depth-sensing indentation (DSI) technique

Materials Science and Engineering: A

Volumn 456, Issue 1-2, 2007, Pages 120-129

  Ye, Duyi ^a   Matsuoka, Saburo ^b   Nagashima, Noburo ^b  

^a ZHEJIANG UNIVERSITY   (China)

^b NATIONAL INSTITUTE FOR MATERIALS SCIENCE   (Japan)

Author keywords

Depth sensing indentation (DSI) technique; Dislocation substructures; Low cycle fatigue; Mesoscopic mechanical properties

Indexed keywords

CYCLIC LOADS; DISLOCATIONS (CRYSTALS); ELASTIC MODULI; FATIGUE OF MATERIALS; HARDNESS; INDENTATION; METALLOGRAPHIC MICROSTRUCTURE; PLASTIC DEFORMATION; POLYCRYSTALLINE MATERIALS; STRAIN HARDENING; YIELD STRESS;

DEPTH-SENSING INDENTATION TECHNIQUE; DISLOCATION SUBSTRUCTURE; LOW-CYCLE FATIGUE;

AUSTENITIC STAINLESS STEEL;

AUSTENITIC STAINLESS STEEL; CYCLIC LOADS; DISLOCATIONS (CRYSTALS); ELASTIC MODULI; FATIGUE OF MATERIALS; HARDNESS; INDENTATION; METALLOGRAPHIC MICROSTRUCTURE; PLASTIC DEFORMATION; POLYCRYSTALLINE MATERIALS; STRAIN HARDENING; YIELD STRESS;

EID: 33947414919     PISSN: 09215093     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.msea.2006.12.026     Document Type: Article

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