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Residual stress effects during near-threshold fatigue crack growth
W. Geary
*
, J.E. King
*
Corresponding author for this work
Aston University
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Keyphrases
Residual Stress Effect
100%
Near-threshold Fatigue Crack Growth
100%
Austenitizing
100%
Growth Rate
50%
Small Region
50%
Volume Change
50%
Stress Level
50%
Heat Treatment
50%
Knee
50%
Microstructural
50%
Residual Stress
50%
Retardation
50%
Transgranular
50%
Crack Path
50%
Fatigue Behavior
50%
Fatigue Crack Propagation Behavior
50%
Cooling Rate
50%
Crack Propagation Rate
50%
Paris Regime
50%
Treatment Variation
50%
Experimental Determination
50%
Low Alloy
50%
Tempering Treatment
50%
Low Temperature Tempering
50%
Crack Front Shape
50%
Martensite Transformation
50%
Residual Compressive Stress
50%
Fatigue Threshold
50%
Stress Ratio R
50%
Boron Steel
50%
Computer Prediction
50%
Differential Cooling
50%
K-curve
50%
Tempering Temperature
50%
Engineering
Residual Stress
100%
Fatigue Crack Growth
100%
Flat Surface
33%
Stress Ratio
33%
Heat Treatment
33%
Crack Propagation
33%
Fatigue Crack Propagation
33%
Retardation
33%
Fatigue Behavior
33%
Stress Level
33%
Crack Front
33%
Cooling Rate
33%
Compressive Residual Stress
33%
Fatigue Threshold
33%
Crack Propagation Path
33%
Tempering Temperature
33%
Martensite Transformation
33%
Experimental Determination
33%