Microcrack nucleation and its effect on the plastic deformation of FL γ-TiAl alloy

被引:0
|
作者
R. T. Zheng
Y. G. Zhang
C. Q. Chen
机构
[1] Beijing Normal University,Key Laboratory of Radiation Beam Technology and Materials Modification of Ministry of Education, Institute of Low Energy Nuclear Physics
[2] Beijing University of Aeronautics and Astronauts,Material Science and Engineering Department
来源
Journal of Materials Science | 2004年 / 39卷
关键词
Polymer; Grain Size; Microstructure; Plastic Deformation; Density Increase;
D O I
暂无
中图分类号
学科分类号
摘要
Microcracks and their effect on the plastic deformation of γ-TiAl alloy with fully lamellar microstructure (FL) at relatively low strain rate (1 × 10−5/s) has been investigated. It is found that a large number of microcracks nucleate within the grains. The microcrack density increases with the increase of grain size. Most of the microcracks nucleate at the γ/α2 interfaces and gather at grains with soft-orientations. Based on the observation and analysis, a model of microcrack nucleation in FL γ-TiAl alloy is built up. The plastic elongation of γ-based TiAl alloys with FL microstructure changes non-monotonously with the increase of grain size, which results from cooperation of micro-deformations and microcracks.
引用
收藏
页码:1721 / 1725
页数:4
相关论文
共 50 条
  • [41] Grain refining of TiAl alloy by rapid deformation
    Huang, BY
    He, YH
    Zhou, KC
    Qu, XH
    Chen, XQ
    MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 1997, 240 : 709 - 712
  • [42] The mechanism of superplastic deformation for TiAl based alloy
    Lu, SQ
    Huang, BY
    He, YH
    Tang, JC
    Zhang, JH
    RARE METAL MATERIALS AND ENGINEERING, 2003, 32 (07) : 481 - 485
  • [43] Grain refining of TiAl alloy by rapid deformation
    Central South Univ of Technology, Changsha, China
    Mater Sci Eng A Struct Mater Prop Microstruct Process, (709-712):
  • [44] Hot deformation behavior of extruded γ-TiAl alloy
    Fu, Ming-Jie
    Jing, Yong-Juan
    Zhang, Ji
    Cailiao Gongcheng/Journal of Materials Engineering, 2011, (05): : 62 - 65
  • [45] An IFS constitutive description of the fractal microcrack evolution for SiCp reinforced Al alloy matrix composite in large plastic deformation
    Shih, SC
    Gan, S
    Wang, LL
    FRACTURE AND STRENGTH OF SOLIDS, PTS 1 AND 2: PT 1: FRACTURE MECHANICS OF MATERIALS; PT 2: BEHAVIOR OF MATERIALS AND STRUCTURE, 1998, 145-9 : 853 - 858
  • [46] Hot Deformation Behavior of a β-solidified TiAl Alloy
    Deng, Zhihai
    Li, Jinshan
    Zhang, Tiebang
    Zhong, Hong
    Hu, Rui
    Chang, Hui
    TI-2011: PROCEEDINGS OF THE 12TH WORLD CONFERENCE ON TITANIUM, VOL II, 2012, : 1486 - 1490
  • [47] Effect of creep deformation on creep-fatigue damage in lamellar TiAl alloy
    Park, YS
    Nam, SW
    Yang, SJ
    Hwang, SK
    MATERIALS TRANSACTIONS, 2001, 42 (07) : 1380 - 1384
  • [48] Localised cyclic plastic deformation on translamellar fracture surfaces in a P/M γ-TiAl-based alloy
    Huang, ZW
    Bowen, P
    ACTA MATERIALIA, 1999, 47 (11) : 3189 - 3203
  • [49] THE PLASTIC-DEFORMATION BEHAVIOR OF TIAL BASED ALLOYS
    PU, ZJ
    ZHU, D
    ZHU, J
    CAI, QG
    ZOU, DX
    CHINESE SCIENCE BULLETIN, 1990, 35 (16): : 1397 - 1400
  • [50] Analysis of elastic-plastic deformation in TiAl polycrystals
    Brockman, RA
    INTERNATIONAL JOURNAL OF PLASTICITY, 2003, 19 (10) : 1749 - 1772
12345