Effects of stacking fault energy, strain rate and temperature on microstructure and strength of nanostructured Cu-Al alloys subjected to plastic deformation

Acta Materialia

Volumn 59, Issue 15, 2011, Pages 6048-6058

  Zhang, Y ^a   Tao, N R ^a   Lu, K ^a  

^a INSTITUTE OF METAL RESEARCH   (China)

Author keywords

Cu Al alloys; Mechanical properties; Nanostructures; Plastic deformation; Stacking fault energy

Indexed keywords

AL-CONCENTRATION; CU-AL ALLOYS; DEFORMATION MODES; DISLOCATION SLIP; DOMINANT DEFORMATION MECHANISM; DYNAMIC PLASTIC DEFORMATION; GRAIN SIZE; LIQUID NITROGEN TEMPERATURE; MICROSTRUCTURE CHARACTERISTICS; NANO SCALE; NANO-STRUCTURED; QUASI-STATIC COMPRESSION; ROOM TEMPERATURE; SIZE EFFECTS; STACKING FAULT ENERGIES; STACKING FAULT ENERGY;

ALLOYS; ALUMINUM; COMPACTION; COPPER ALLOYS; ELECTRON ENERGY LOSS SPECTROSCOPY; LIQUID NITROGEN; MECHANICAL PROPERTIES; MICROSTRUCTURE; NANOSTRUCTURES; PLASTIC DEFORMATION; STAINLESS STEEL;

STRAIN RATE;

EID: 79960992598     PISSN: 13596454     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.actamat.2011.06.013     Document Type: Article

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