Deformation of micron-sized aluminium bi-crystal pillars

Philosophical Magazine

Volumn 89, Issue 33, 2009, Pages 3013-3026

  Ng, K S ^a   Ngan, A H W ^a  

^a UNIVERSITY OF HONG KONG   (Hong Kong)

Author keywords

Aluminium; Bi crystal; Deformation; Dislocation interactions; Dislocation mechanics; Dislocations; Ion beams; Micro crystals; Nanoindentation; Nanomechanics

Indexed keywords

ALUMINIUM; COARSE-GRAINED; DISLOCATION ACCUMULATION; DISLOCATION INTERACTIONS; DISLOCATION MECHANICS; DISLOCATIONS; FLOW STRESS; FOCUSSED ION BEAMS; GRAIN BOUNDARY REGIONS; MICRO-PILLARS; NANOINDENTER TIP; POLYCRYSTALLINE ALUMINIUM; RELIABILITY PROBLEMS; RESIDUAL DISLOCATIONS; STRAIN HARDENING RATE; TOP SURFACE; WORK-HARDENING RATE;

ALUMINUM; DEFORMATION; GRAIN BOUNDARIES; GRAIN SIZE AND SHAPE; ION BEAMS; IONS; NANOINDENTATION; NANOMECHANICS; PLANTS (BOTANY); SINGLE CRYSTALS; STRAIN HARDENING; STRAIN RATE; TRANSMISSION ELECTRON MICROSCOPY;

DISLOCATIONS (CRYSTALS);

EID: 70449112907     PISSN: 14786435     EISSN: 14786443     Source Type: Journal    
DOI: 10.1080/14786430903164614     Document Type: Article

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