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Prediction of Fatigue Crack Growth in Vacuum-Brazed Titanium Alloy
Chou Dian Huang,
Jiun Ren Hwang
, Jiunn Yuan Huang
機械工程學系
研究成果
:
雜誌貢獻
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期刊論文
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深入研究「Prediction of Fatigue Crack Growth in Vacuum-Brazed Titanium Alloy」主題。共同形成了獨特的指紋。
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Keyphrases
Fatigue Crack Growth
100%
Titanium Alloy
100%
Brazing
100%
Fatigue Test
66%
Fatigue Properties
66%
Crack Closure
66%
Stress Ratio
66%
Prediction Model
33%
Fracture Surface
33%
Microstructure
33%
Residual Stress
33%
Rate of Increase
33%
Fatigue Crack Growth Rate
33%
Secondary Crack
33%
Result Prediction
33%
Ti-6Al-4V (Ti64)
33%
Needle-like
33%
Crack Growth
33%
Vacuum Brazing
33%
Model Modification
33%
Cycle Counting Methods
33%
Failure Characteristics
33%
Rate Region
33%
Stable Crack Growth
33%
Welded Components
33%
High Strength Steel
33%
Ranging Method
33%
Variable Amplitude Fatigue
33%
Welded Structures
33%
Fatigue Striation
33%
Fatigue Model
33%
Fatigue Crack Growth Prediction
33%
Arya-Paris Model
33%
Growth Prediction Model
33%
Residual Crack
33%
Load Interaction
33%
Ductile Failure
33%
Residual Stress Modification
33%
Rainflow Method
33%
Constant Amplitude Fatigue
33%
Engineering
Fatigue Crack Growth
100%
Crack Growth Rate
40%
Residual Stress
40%
Mechanical Fatigue Test
40%
Fatigue Property
40%
Crack Closure
40%
Stress Ratio
40%
Fracture Surface
20%
Rate Increase
20%
Ti-6al-4v
20%
Good Prediction
20%
Modified Model
20%
Constant Amplitude
20%
Vacuum Brazing
20%
Rate Region
20%
Stable Crack Growth
20%
Range Method
20%
Ductile Failure
20%
Fatigue Striation
20%
Fatigue Model
20%
High Strength Steels
20%
Material Science
Fatigue Crack Growth
100%
Titanium Alloy
100%
Residual Stress
40%
Crack Closure
40%
Ti-6Al-4V
20%
Brazing
20%
Stable Crack Growth
20%
High Strength Steels
20%
Surface (Surface Science)
20%