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Fatigue Crack Propagation in 5754 Aluminum Alloy under Four-Point Bending
Mamookho Elizabeth Makhatha
, Pawan Kumar
, D. A. Baruwa
Metallurgy
University of Johannesburg
Research output
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peer-review
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Citation (Scopus)
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Material Science
Fatigue Crack
100%
Fatigue Crack Growth
100%
Crack Propagation
100%
Aluminum Alloys
100%
Aluminum
75%
Stress Intensity Factor
50%
Elasticity
25%
Plastic Deformation
25%
Hydraulics
25%
Tensile Testing
25%
Engineering Material
25%
Keyphrases
Fatigue Crack Growth
100%
Fatigue Crack Propagation
100%
Beam Specimen
66%
Testing Apparatus
33%
Safe Design
33%
Seismic Vibrations
33%
Crack Length
33%
Variable Loading Conditions
33%
Periodic Loading
33%
Stress Intensity Factor KI
33%
Stress Intensity Factor Range
33%
Notch Width
33%
Large Plastic Deformation
33%
Engineering
Fatigue Crack Growth
100%
Fatigue Crack Propagation
100%
Beam Specimen
50%
Safe Design
25%
Crack Length
25%