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γ-TiAl合金高温抗氧化涂层研究进展
作者:
作者单位:

1.西北工业大学;2.西安赛福斯材料防护有限责任公司

基金项目:

陕西省自然科学基础研究计划(2021JM-055)


Research progress of high temperature oxidation resistance coatings on γ -tial alloy
Author:
Affiliation:

1.Northwestern Polytechnical University,Xi’an;2.Xi’an Surface Material Protection Co,Ltd,Xi’an

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    摘要:

    TiAl基合金具有密度低、弹性模量大、比强度高等特点,是航空发动机用镍基高温合金最有竞争力的替代材料之一。本文从扩散渗、激光熔覆、双辉等离子渗金属、大气等离子喷涂、物理气相沉积等制备技术出发,概述了TiAl基合金高温抗氧化涂层的研究进展,并根据航空发动机性能持续提高对材料的高要求,提出了实现TiAl合金在先进发动机上应用的研究方向。

    Abstract:

    TiAl based alloy is one of the most competitive materials for nickel-base superalloys for aeroengines due to its low density, high elastic modulus and high specific strength performance. In this paper, the research progress of high temperature oxidation resistant coatings on TiAl alloy is summarized based on Diffusion infiltration, Laser cladding, Double glow plasma Infiltration, Atmospheric plasma spraying, Physical vapor deposition and other preparation technologies. In addition, the research direction of realizing TiAl alloy application in advanced engine is put forward according to the high requirement of materials for continuous improvement of aero-engine performance.

    参考文献
    [1]Qian Jiujiang(钱九江), Qi Xuezhong(祁学忠). Rare Metals(稀有金属)[J], 2002, 26(6): 477-482
    [2]Appel F,Paul J D H,Oehring M,Gamma Titanium Aluminide Alloys: Science and Technology[M]. Wiley-VCH, 2011
    [3]Bewlay B P,Nag S,Suzuki A et al. Materials at High Temperatures[J],2016,33 (4-5):549–559
    [4]Perrut M,Caron P,Thomas M et al. Comptes Rendus Physique[J],2018,19:657–671
    [5]Li Cailing(李彩玲),Suo Dejun(索德军).The 7th Youth Science and Technology Symposium of Chinese Aeronautical Society(第七届中国航空学会青年科技论文集)[C].Beijing:China science technology press,2016:428-432
    [6]Bewlay B P,Weimer M,Kelly T et al. Comptes Rendus Physique[J], 2013,1516, 49-58.
    [7]QQcom (腾讯网) [Z], 2021,10,13. https://xw.qq.com/cmsid/20211013A03TGM00.
    [8]Erdely P,Staron P,Maawad E et al. Materials and Design[J],2017, 131: 286–296.
    [9]Chen G,Peng Y B,Zheng G et al. Nature Materials[J],2016,15(8):876-881
    [10]Edalati K,Toh S,Iwaoka H et al. Scripta Materialia[J],2012, 64:814-817
    [11]Shen J Y,Hu L X,Zhang L Y et al. Materials Science Engineering A[J],2020,795:139997
    [12]Xiang J M,Mi G B,Qu S J et al. Scientific Reports[J],2018,8(1):12761
    [13]Yoshihara M and Kim Y W. Intermetallics[J],2005,13:952–958
    [14]Wang Q M, Zhang K, Gong J et al. Acta Materialia [J],2007,55:1427-1439
    [15]Goward G W. Surface and Coatings Technology [J],1998,108-109:73-79
    [16]Kishore K,Chhangani S,Prasad M J N V et al. Surface Coatings Technology[J],2021,409: 126783
    [17]Kepa T,Pedraza F and Rouillard F. Surface Coatings Technology[J],2020,397:126011
    [18]Aliabadi A,Hadavi S M M and Eshraghi M J. Ceramics International[J],2021,47:20051–20063
    [19]Velon A and Yi D Q. Oxidation of Metals [J],2002,57(1-2):13-31
    [20]Kircher T A,Mcmordie B G and Mccarter A. Surface coatings technology [J],1994,68-69: 32-37
    [21]Das D K,Singh V,Joshi S V. Oxidation of Metals[J],2002,57(3-4):245-266
    [22]Kim S,Paik D,Kim I et al. Materials Science and Technology [J],1998,14:822-825
    [23]Nouri S,Rastegari S,Mirdamadi S et al. Surface Engineering[J],2015,13(12):930-933
    [24]Li Y Q,Xie F Q,Wu X Q. Transactions of Nonferrous Metals Society of China[J],2015,25: 803-810
    [25]Li Yongquan(李涌泉). Microstructure and properties of Si-Al-Y co-permeable layer on TiAl alloy surface(TiAl 合金表面 Si-Al-Y 共渗层的组织与性能研究)[D],Xi’an(西安):Northwestern Polytechnical University(西北工业大学),2014:1-79.
    [26]Xiang J Y,Xie F Q,Wu X Q et al. Vacuum [J],2020,174:109190
    [27]Xiang J Y,Xie F Q,Wu X Q et al. Tribology International [J],2019,136:45-57
    [28]Xiang J Y,Xie F Q,Wu X Q et al. Surface Coatings Technology [J],2021,419:127282
    [29]Quazi M M,Fazal M A, Haseeb A S M A et al. Journal of Rare Earth[J],34(6):549-564
    [30]Jiang J X,Pang X M, Zhou J X et al. Optics and Laser Technology[J],2021,143:107308
    [31]Maliutina I N,Si-Mohand H,Sijobert J et al.Surface Coatings Technology[J],2017,319: 136–144
    [32]Liu X B and Wang H M.Surface Coatings Technology[J],2006,200:4462– 4470
    [33]Liu X B and Yu R L. Journal of Alloys and Compounds[J],2007,439: 279-286
    [34]Liu X B and Yu R L. Materials and Design[J],2009,30:391-397
    [35]Xu Zhong(徐重). Chinese Engineering Science(中国工程科学)[J],2002,4(2):36-41
    [36]Song J,Zhang P Z,Wei D B et al. Materials Characterization[J],2014,98:54-59
    [37]Wei X F,Zhang P Z and Wei D B. International Journal of Surface Science and Engineering [J],2016,10(6):559-569
    [38]Xu Y,Shi P F,Qiu J et al. Vacuum[J],2019,165:148-156
    [39]Zheng K,Wang Y R,Wang R Y et al. Vacuum[J],2020,179:109494
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屈静,谢发勤,吴向清,高广睿.γ-TiAl合金高温抗氧化涂层研究进展[J].稀有金属材料与工程,2022,51(10):3929~3936.[Jing Qu, Faqin Xie, Xiangqing Wu, Guangrui Gao. Research progress of high temperature oxidation resistance coatings on γ -tial alloy[J]. Rare Metal Materials and Engineering,2022,51(10):3929~3936.]
DOI:10.12442/j. issn.1002-185X.20220294

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  • 收稿日期:2022-04-09
  • 最后修改日期:2022-06-08
  • 录用日期:2022-06-08
  • 在线发布日期: 2022-11-01
  • 出版日期: 2022-10-28

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