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Mixed mode fatigue crack propagation behaviour of aluminium F357 alloy
Marzio Grasso
, Yigeng Xu
, Roberto Russo
, Vincenzo Rosiello
Centre for Engineering Research
Materials and Structures
Energy and Sustainable Manufacturing Research Group
Research output
:
Contribution to journal
›
Article
›
peer-review
12
Citations (Scopus)
41
Downloads (Pure)
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Dive into the research topics of 'Mixed mode fatigue crack propagation behaviour of aluminium F357 alloy'. Together they form a unique fingerprint.
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Keyphrases
Fatigue Crack Propagation Behavior
100%
F357
100%
Loading Direction
100%
Mixed Mode Fatigue Crack Propagation
100%
Crack Front
100%
Mixed Mode Crack Growth
75%
Factor Value
50%
Stress Intensity Factor
50%
Foundry
25%
Elliptical Shape
25%
Three-mode
25%
Crack Orientation
25%
Mode II Stress Intensity Factor
25%
Fatigue Load
25%
Equivalent Value
25%
Mode-III Stress Intensity Factors
25%
Fatigue Life
25%
H-shaped
25%
Initial Crack
25%
Crack Surface
25%
Physical Tests
25%
Stress Criterion
25%
Crack Growth Behavior
25%
Fractographic Observation
25%
Mixed Mode Fatigue
25%
Loading Conditions
25%
Manufacturing Defects
25%
Fatigue Crack Growth Rate
25%
Kink Angle
25%
Initial Orientation
25%
Tensile Stress
25%
Mixity
25%
Engineering
Mixed Mode
100%
Fatigue Crack Propagation
100%
Crack Front
80%
Loading Direction
80%
Stress-Intensity Factor
80%
Crack Growth Behavior
40%
Numerical Study
20%
Initial Orientation
20%
Fatigue Loading Condition
20%
Elliptical Shape
20%
Fatigue Crack Growth
20%
Test Specimen
20%
Tensile Stress σ
20%
Crack Surface
20%
Circumferential
20%
Fatigue Life
20%
Plane Perpendicular
20%
Shaped Specimen
20%
Crack Growth
20%
Early Stage
20%
Initial Crack
20%