Design and fabrication of a low modulus β-type Ti–Nb–Zr alloy by controlling martensitic transformation

被引:0
|
作者
Qing-Kun Meng
Yu-Fei Huo
Wen Ma
Yan-Wei Sui
Jin-Yong Zhang
Shun Guo
Xin-Qing Zhao
机构
[1] China University of Mining and Technology,School of Materials Science and Engineering
[2] GRINM Bohan (Beijing) Publisher Co.,School of Materials Science and Engineering
[3] Ltd.,School of Materials Science and Engineering
[4] GRINM Group Co.,undefined
[5] Ltd.,undefined
[6] Jiangsu University,undefined
[7] Beihang University,undefined
来源
Rare Metals | 2018年 / 37卷
关键词
Biomedical Ti alloys; Martensitic transformation; Low modulus; Short-time annealing;
D O I
暂无
中图分类号
学科分类号
摘要
In this paper, high density of dislocations, grain boundaries and nanometer-scale α precipitates were introduced to a metastable Ti–36Nb–5Zr alloy (wt%) through a thermo-mechanical approach including severe cold rolling and short-time annealing treatment. The martensitic transformation was retarded, and the β phase with low content of β stabilizers was retained at room temperature after the thermo-mechanical treatment. As a result, both low modulus (57 GPa) and high strength (950 MPa) are obtained. The results indicate that it is a feasible strategy to control martensitic transformation start temperature through microstructure optimization instead of composition design, with the aim of fabricating low modulus β-type Ti alloy.
引用
收藏
页码:789 / 794
页数:5
相关论文
共 50 条
  • [1] Design and fabrication of a low modulus β-type Ti-Nb-Zr alloy by controlling martensitic transformation
    Qing-Kun Meng
    Yu-Fei Huo
    Wen Ma
    Yan-Wei Sui
    Jin-Yong Zhang
    Shun Guo
    Xin-Qing Zhao
    RareMetals, 2018, 37 (09) : 789 - 794
  • [2] Design and fabrication of a low modulus β-type Ti-Nb-Zr alloy by controlling martensitic transformation
    Meng, Qing-Kun
    Huo, Yu-Fei
    Ma, Wen
    Sui, Yan-Wei
    Zhang, Jin-Yong
    Guo, Shun
    Zhao, Xin-Qing
    RARE METALS, 2018, 37 (09) : 789 - 794
  • [3] Improvement in Fatigue Strength with Maintaining Young' s Modulus Low by Controlling ω-phase Precipitation in β-type Ti-Nb-Ta-Zr Alloy
    Nakai, Masaaki
    Niinomi, Mitsuo
    TI-2011: PROCEEDINGS OF THE 12TH WORLD CONFERENCE ON TITANIUM, VOL III, 2012, : 2102 - 2105
  • [4] Design of low elastic modulus Ti-Nb-Zr alloys for implant materials
    Song, X. P.
    You, L.
    Zhang, B.
    Song, A.
    MATERIALS TECHNOLOGY, 2012, 27 (01) : 55 - 57
  • [5] Development of a low elastic modulus and antibacterial Ti-13Nb-13Zr-5Cu titanium alloy by microstructure controlling
    Shi, Anqi
    Cai, Diangeng
    Hu, Jiali
    Zhao, Xiaotong
    Qin, Gaowu
    Han, Yong
    Zhang, Erlin
    MATERIALS SCIENCE & ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS, 2021, 126
  • [6] Phase transformation and mechanical properties of the Ti50Zr30Nb10Ta10 alloy with low modulus and biocompatible
    Yang, GJ
    Zhang, T
    JOURNAL OF ALLOYS AND COMPOUNDS, 2005, 392 (1-2) : 291 - 294
  • [7] Isothermal martensitic transformation behavior of Ti-Nb-O alloy
    Tahara, Masaki
    Inamura, Tomonari
    Kim, Hee Young
    Miyazaki, Shuichi
    Hosoda, Hideki
    MATERIALS LETTERS, 2019, 257
  • [8] Martensitic transformation of Ti-18Nb(at.%) alloy with zirconium
    Wenjun Ye
    Xujun Mi
    Xiaoyun Song
    Rare Metals, 2012, 31 : 227 - 230
  • [9] Martensitic transformation of Ti-18Nb(at.%) alloy with zirconium
    Ye Wenjun
    Mi Xujun
    Song Xiaoyun
    RARE METALS, 2012, 31 (03) : 227 - 230
  • [10] Martensitic transformation of Ti-18Nb(at.%) alloy with zirconium
    YE Wenjun
    RareMetals, 2012, 31 (03) : 227 - 230
12345