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Prediction of low-cycle crack initiation life of powder superalloy FGH96 with inclusions based on damage mechanics 被引量:3
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作者 Yuan-ming XU Shu-ming ZHANG +2 位作者 Tian-peng HE xin-ling liu Xia-yuan CHANG 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2022年第3期895-907,共13页
The effects of inclusions in powder superalloy FGH96 on low-cycle fatigue life were studied, and a low-cycle crack initiation life prediction model based on the theory of damage mechanics was proposed. The damage char... The effects of inclusions in powder superalloy FGH96 on low-cycle fatigue life were studied, and a low-cycle crack initiation life prediction model based on the theory of damage mechanics was proposed. The damage characterization parameter was proposed after the construction of damage evolution equations. Fatigue tests of the powder superalloy specimens with and without inclusion were conducted at 530 and 600 ℃, and the model verification was carried out for specimens with elliptical, semi-elliptical, polygon and strip-shaped surface/subsurface inclusion. The stress analysis was performed by finite element simulation and the predicted life was calculated. The results showed a satisfying agreement between predicted and experimental life. 展开更多
关键词 powder superalloy FGH96 low-cycle fatigue INCLUSION crack initiation life prediction damage mechanics
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Evaluation of vibration stress of TA11 titanium alloy blade by quantitative fractography 被引量:3
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作者 xin-ling liu Yuan-Ming Xu Chun-Hu Tao 《Rare Metals》 SCIE EI CAS CSCD 2014年第3期263-269,共7页
Vibration fatigue is the main failure mode of compressor blade. Evaluating the vibration stress of blade that leads to cracking is very useful for analysis of vibration fatigue. In this paper, fatigue stress estimatio... Vibration fatigue is the main failure mode of compressor blade. Evaluating the vibration stress of blade that leads to cracking is very useful for analysis of vibration fatigue. In this paper, fatigue stress estimation methods by quantitative fractography were studied through experimental blade and in-service first-stage compressor blade in order to evaluate the initiation vibration stress of in-service blade. The analysis process of initiation vibration stress was established. The evaluating result of vibration stress of in-service blade subjected to centrifugal force and bending vibration stress agrees with aero engine test result. It is shown that the evaluation method can not only evaluate the equivalent fatigue stresses of different crack depths but also yield the initiation equivalent fatigue stress. 展开更多
关键词 Compressor blade Bending vibration Stress evaluate Quantitative fractography
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