A study to evaluate and understand the response of aluminum alloy 2026 subjected to tensile deformation

Materials and Design

Volumn 31, Issue 1, 2010, Pages 166-175

  Lam, Daniel F ^a   Menzemer, C C ^a   Srivatsan, T S ^a  

^a University of Akron   (United States)

Author keywords

Aluminum alloy; Fracture; Microstructure; Stress concentration; Tensile loading

Indexed keywords

AVERAGE STRAIN; FAILURE STRAIN; HOLE SIZE; MAXIMUM LOAD; MECHANICAL TESTS; OPEN HOLES; STRAIN CONCENTRATION; STRAIN CONCENTRATION FACTORS; TENSILE DEFORMATION; TENSILE LOADING; THREADED FASTENERS;

ALUMINA; ALUMINUM; ALUMINUM ALLOYS; ALUMINUM METALLURGY; CONCENTRATION (PROCESS); FRACTURE; LOCKS (FASTENERS); MICROSTRUCTURE; STRESS ANALYSIS; STRESS CONCENTRATION; TENSILE STRESS;

HOLE CONCENTRATION;

EID: 69549102959     PISSN: 02641275     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.matdes.2009.06.040     Document Type: Article

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