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Changes in magnetic flux density around fatigue crack tips
K. Kida
*
, H. Tanabe, H. Okano
*
Corresponding author for this work
Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
25
Scopus citations
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Keyphrases
Bearing Steel
12%
Crack Form
12%
Crack Growth
12%
Crack Tip
25%
Cracking Stress
12%
Elastic Stress
12%
Fatigue Crack
12%
Fatigue Crack Tip
100%
Fatigue Failure
12%
Fatigue Test
12%
Growth Intensity
12%
Magnetic Flux Density
100%
Residual Strain
25%
Scanning Hall Probe Microscopy
12%
Small Crack
12%
Steel Component
12%
Stress Field
12%
Stress Intensity Factor
12%
Strong Correlation
12%
Engineering
Bearing Steel
12%
Crack Growth
12%
Crack Tip
100%
Early Stage
12%
Elastic Stress
12%
Fatigue Crack
100%
Fatigue Failure
12%
Magnetic Flux Density
100%
Mechanical Fatigue Test
12%
Residual Strain
25%
Small Crack
12%
Stress Field
12%
Stress-Intensity Factor
12%
Material Science
Bearing Steel
12%
Crack Growth
12%
Crack Tip
100%
Density
100%
Fatigue Crack
100%
Small Crack
12%
Stress Field
12%
Stress Intensity Factor
12%
Earth and Planetary Sciences
Crack Tip
100%
Fatigue Test
12%
Flux Density
100%
Stress Intensity Factor
12%