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Volumn 59, Issue 14, 2011, Pages 5544-5557

Modeling grain size dependent optimal twin spacing for achieving ultimate high strength and related high ductility in nanotwinned metals

Author keywords

Density of dislocations; Dislocation pile up zone; Ductility; Nanotwinned metal; Strength

Indexed keywords

CONTINUUM PLASTICITY; DENSITY OF DISLOCATION; DISLOCATION PILE-UP ZONE; DISLOCATION PILEUP; EXPERIMENTAL OBSERVATION; GRAIN SIZE; HIGH STRENGTH; LINEARLY PROPORTIONAL; LOCAL FAILURE; MAXIMUM STRENGTH; MOLECULAR DYNAMICS SIMULATIONS; NANOTWINNED COPPER; NANOTWINNED METAL; PARTIAL DISLOCATIONS; PLASTICITY MODEL; STRENGTH; TENSILE DUCTILITY; TWIN SPACING; WORK HARDENING RATE;

EID: 79960437288     PISSN: 13596454     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.actamat.2011.05.027     Document Type: Article
Times cited : (212)

References (45)
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    • B.A. Bilay, and J.D. Eshelby H. Liebowitz, Fracture vol. 1 1969 Academic Press New York 99 182
    • (1969) Fracture , vol.1 , pp. 99-182
    • Bilay, B.A.1    Eshelby, J.D.2
  • 45
    • 0032484943 scopus 로고    scopus 로고
    • S. Yip Nature 391 1998 532 533
    • (1998) Nature , vol.391 , pp. 532-533
    • Yip, S.1


* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.