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Comprehensive damage and deformation mechanisms during out-of-phase thermal mechanical fatigue of the fourth-generation single crystal superalloy 期刊论文
INTERNATIONAL JOURNAL OF FATIGUE, 2024, 卷号: 178, 页码: 14
作者:  Tan, Zihao;  Wang, Xinguang;  Li, Yongmei;  Yang, Yanhong;  Du, Yunling;  Ge, Zhicheng;  Liu, Jide;  Liu, Jinlai;  Li, Jinguo;  Zhou, Yizhou;  Sun, Xiaofeng
收藏  |  浏览/下载:6/0  |  提交时间:2024/01/07
Fourth-generation single crystal superalloy  Thermomechanical fatigue  Oxidation behavior  Deformation twin  Damage mechanism  
Rolling contact fatigue behaviour of M50 bearing steel with rare earth addition 期刊论文
INTERNATIONAL JOURNAL OF FATIGUE, 2023, 卷号: 177, 页码: 14
作者:  Yang, Liqi;  Xue, Weihai;  Gao, Siyang;  Li, Linlong;  Cao, Yanfei;  Liu, Hongwei;  Duan, Deli;  Li, Dianzhong;  Li, Shu
收藏  |  浏览/下载:3/0  |  提交时间:2024/01/07
M50 bearing steel  Rolling contact fatigue  Primary carbide  Rare earth  Failure mechanism  
Low cycle fatigue behavior and microstructure evolution of a fourth-generation single crystal superalloy at 800 °C 期刊论文
MATERIALS CHARACTERIZATION, 2023, 卷号: 205, 页码: 14
作者:  Liang, Z. Y.;  Tan, Z. H.;  Zhang, C. H.;  Zhang, S.;  Tao, X. P.;  Wang, X. G.;  Jafri, S. M. Abbas;  Shi, Z. W.;  Yang, Y. H.;  Liu, J. D.;  Liu, J. L.;  Li, J. G.;  Zhou, Y. Z.;  Sun, X. F.
收藏  |  浏览/下载:8/0  |  提交时间:2024/01/07
Fourth-generation Ni-base single crystal super-alloy  Low cycle fatigue  Cyclic hardening  Dislocation configuration  Deformation mechanism  
High-cycle fatigue failure behavior of nickel-based single crystal alloys with different deviation angles in a high-temperature environment 期刊论文
MATERIALS CHARACTERIZATION, 2023, 卷号: 203, 页码: 13
作者:  Mao, Zhuangzhuang;  Zhu, Yingbin;  Zhao, Yao;  Xie, Huimin;  Yang, Yanhong;  Zhou, Yizhou;  Huang, Xianfu;  Liu, Zhanwei
收藏  |  浏览/下载:9/0  |  提交时间:2024/01/08
Nickel-based single crystal  Different deviation angles  High cycle fatigue failure mechanism  
Uncovering the high-temperature microstructural evolution and creep-fatigue damage mechanism of CMSX-4 brazed joints 期刊论文
INTERNATIONAL JOURNAL OF FATIGUE, 2023, 卷号: 173, 页码: 14
作者:  Lu, Chuanyang;  Qin, Zhulai;  Wang, Shiyang;  He, Yanming;  Sun, Yuan;  Gao, Zengliang;  Tu, Shan -Tung
收藏  |  浏览/下载:4/0  |  提交时间:2024/01/07
Nickel -based single -crystal superalloy  Brazing  Creep -fatigue  Microstructural evolution  Damage mechanism  
Investigation of High-Cycle Fatigue Properties of Wire Arc Additive Manufacturing 13Cr4Ni Martensitic Stainless Steel 期刊论文
METALS, 2023, 卷号: 13, 期号: 7, 页码: 16
作者:  Cheng, Guangfu;  Li, Haichao;  Dai, Haiyan;  Gao, Hongming;  Pang, Jianchao
收藏  |  浏览/下载:9/0  |  提交时间:2024/01/08
wire arc additive manufacturing  13Cr4Ni martensitic stainless steel  fatigue property  damage mechanism  fatigue strength prediction  
A full-stage fatigue crack growth model for metallic materials 期刊论文
INTERNATIONAL JOURNAL OF FATIGUE, 2023, 卷号: 172, 页码: 8
作者:  Li, H. F.;  Liu, Y. Q.;  Zhang, P.;  Zhang, Z. F.
收藏  |  浏览/下载:6/0  |  提交时间:2024/01/07
Fatigue crack growth  BRS-MVC mechanism  Energy distribution  Metallic materials  
The effects of temperature and stress on the high-cycle fatigue properties of a Ni-based wrought superalloy 期刊论文
INTERNATIONAL JOURNAL OF FATIGUE, 2023, 卷号: 172, 页码: 17
作者:  Chen, Yipeng;  Kong, Weiwen;  Yuan, Chao;  Liu, Shuai;  Cai, Yong;  Wang, Yongqiang;  Gao, Xinyu
收藏  |  浏览/下载:11/0  |  提交时间:2024/01/07
GH4742  High -cycle fatigue  Fatigue life  Fatigue failure mechanism  
High-temperature fatigue damage mechanism and strength prediction of vermicular graphite iron 期刊论文
INTERNATIONAL JOURNAL OF FATIGUE, 2023, 卷号: 168, 页码: 13
作者:  Chen, Y.;  Pang, J. C.;  Zou, C. L.;  Li, S. X.;  Zhang, Z. F.
收藏  |  浏览/下载:55/0  |  提交时间:2023/05/09
Vermicular graphite iron  High-temperature fatigue  Microstructures  Damage mechanism  Fatigue strength prediction  
Nanograin formation and cracking mechanism in Ti alloys under very high cycle fatigue loading 期刊论文
INTERNATIONAL JOURNAL OF FATIGUE, 2023, 卷号: 167, 页码: 10
作者:  Sun, Chengqi;  Wu, Han;  Chi, Weiqian;  Wang, Wenjing;  Zhang, Guang-Ping
收藏  |  浏览/下载:39/0  |  提交时间:2023/05/09
Titanium alloy  Very high cycle fatigue  Twinning  Nanograins  Cracking mechanism