Crack initiation mechanism in lanthanum-doped titanium-zirconium-molybdenum alloy during sintering and rolling

被引:0
|
作者
机构
[1] [1,Hu, Ping
[2] 1,Zhou, Yu-hang
[3] 1,Deng, Jie
[4] 1,Li, Shi-lei
[5] 1,Chen, Wen-jing
[6] 1,Chang, Tian
[7] 1,Hu, Bo-liang
[8] 1,Wang, Kuai-she
[9] Feng, Peng-fa
[10] Volinsky, Alex A.
来源
Hu, Ping (huping1985@126.com) | 1600年 / Elsevier Ltd卷 / 745期
关键词
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
相关论文
共 50 条
  • [31] In-situ fracture studies and modeling of the toughening mechanism present in wrought low-carbon arc-cast molybdenum, titanium-zirconium-molybdenum, and oxide-dispersion-strengthened molybdenum flat products
    Cockeram, B. V.
    Chan, K. S.
    METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 2008, 39A (09): : 2045 - 2067
  • [32] The mechanism of internal fatigue-crack initiation and early growth in a titanium alloy with lamellar and equiaxed microstructure
    Pan, Xiangnan
    Xu, Shouwen
    Qian, Guian
    Nikitin, Alexander
    Shanyavskiy, Andrey
    Palin-Luc, Thierry
    Hong, Youshi
    MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2020, 798
  • [33] Dynamic Globularization Mechanism in TC21 Titanium Alloy during Hot Rolling
    Wang, L. R.
    Zhao, Y. Q.
    Zhou, L.
    TI-2011: PROCEEDINGS OF THE 12TH WORLD CONFERENCE ON TITANIUM, VOL I, 2012, : 741 - 744
  • [34] Brazing characteristics, microstructure, and wettability of laser powder bed fusion additive manufactured GRCop-84 compared to CuCrZr and OFC, and brazing to titanium-zirconium-molybdenum alloy limiters
    Seltzman, A. H.
    Wukitch, S. J.
    FUSION ENGINEERING AND DESIGN, 2022, 180
  • [35] An experimental study on the mechanism of texture evolution during hot-rolling process in a β titanium alloy
    Kou, Hongchao
    Chen, Yi
    Tang, Bin
    Cui, Yuwen
    Sun, Feng
    Li, Jinshan
    Xue, Xiangyi
    JOURNAL OF ALLOYS AND COMPOUNDS, 2014, 603 : 23 - 27
  • [36] Edge crack forming mechanism and the countermeasures in as-sintered 2024 aluminium alloy during cold rolling
    Wang, Tao
    Yang, Lun
    Huang, Yufeng
    Ma, Yunzhu
    Wu, Lei
    Yan, Huanyuan
    Liu, Chao
    Liu, Yang
    Liu, Bing
    Liu, Wensheng
    FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURES, 2020, 43 (12) : 2812 - 2827
  • [37] Crack initiation mechanism of titanium alloy in very high cycle fatigue regime at 400℃ considering stress ratio effect
    Liu, Fulin
    Peng, Haotian
    Liu, Yongjie
    Wang, Chong
    Wang, Qingyuan
    Chen, Yao
    International Journal of Fatigue, 2022, 163
  • [38] Initiation and propagation mechanism of fatigue crack in ultra-thick titanium alloy vacuum electron beam welding joint
    Long, Jian
    Zhang, Lin-Jie
    Liu, Yong-Qiang
    Deng, De-An
    Zhuang, Ming-Xiang
    ENGINEERING FAILURE ANALYSIS, 2024, 163
  • [39] Correlation between atomic diffusivity and densification mechanism during spark plasma sintering of titanium alloy powders
    Li, X. X.
    Yang, C.
    Lu, H. Z.
    Luo, X.
    Li, Y. Y.
    Ivasishin, O. M.
    JOURNAL OF ALLOYS AND COMPOUNDS, 2019, 787 : 112 - 122
  • [40] Study on crack initiation mechanism of notched TC4 titanium alloy plate based on acoustic emission information entropy
    Zhong, Bin
    Xie, Jiahao
    Wang, Yuanlong
    Ma, Zhao
    Yu, Zhengyang
    NONDESTRUCTIVE TESTING AND EVALUATION, 2024,
12345