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Residual stress effects during near-threshold fatigue crack growth
W. Geary
*
, J.E. King
*
Corresponding author for this work
Research output
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Article
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peer-review
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Dive into the research topics of 'Residual stress effects during near-threshold fatigue crack growth'. Together they form a unique fingerprint.
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Mathematics
Fatigue Crack Growth
100%
Crack Propagation
87%
Residual Stress
86%
Fatigue
80%
Fatigue Crack Propagation
56%
Martensite
49%
Heat Treatment
46%
Cooling
37%
Range of data
36%
Steel
35%
Threshold Value
34%
Facet
31%
Crack
28%
Vary
25%
Prediction
23%
Path
20%
Curve
18%
Engineering & Materials Science
Tempering
66%
Fatigue crack propagation
60%
Residual stresses
51%
Crack propagation
34%
Fatigue of materials
27%
Boron
22%
Martensite
20%
Compressive stress
20%
Heat treatment
17%
Temperature
15%
Cooling
13%
Cracks
13%
Steel
11%
Chemistry
Crack Propagation
82%
Tempering
82%
Residual Stress
78%
Cooling
17%
Heat Treatment
16%
Alloy
13%
Shape
12%
Chemical Transformation
12%
Volume
11%