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铌基超高温合金表面Si-Al包埋共渗抗氧化涂层的组织形成 被引量:9

Structure formation of co-deposition of Si and Al coatings on advanced Nb-based ultrahigh temperature alloy by pack cementation process
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摘要 通过1000~1150℃Si-Al包埋共渗8h的方法在铌基超高温合金表面制备Al改性硅化物抗氧化涂层,结果表明:实验温度下制备的涂层均具有多层复合结构;不同温度下共渗涂层外层的相组成不同,但最内层均由(Nb,Ti)Al3和(Cr,Al)2(Nb,Ti)组成。1050℃、8hSi-Al共渗在合金表面形成了Al改性的硅化物涂层,其最外层主要为Nb3Si5Al2,依次往内为(Nb,X)(Si,Al)2(X代表Ti,Cr和Hf元素)层、(Nb,X)5Si3层以及最内层;而在1000℃、8h条件下Si-Al共渗形成的涂层以(Nb,Ti)Al3为主,其中含有少量的(Nb,X)5Si3,没有形成以硅化物为主的涂层;在1100℃、8h和1150℃、8h条件下Si-Al共渗形成的涂层外层以(Nb,X)(Si,Al)2为主,但其中Al含量(摩尔分数)仅为2.35%,没有形成Nb-Si-Al三元化合物层。 Al-modified silicide coatings on an advanced Nb-based ultrahigh temperature alloy were prepared by co-depositing Si and A1 at 1 000, 1 050, 1 100 and 1 150℃ for 8 h, respectively. The results show that the coatings obtained by these processes have a multiple layer structure. The outer layers of the coatings have the different phase constituents at different coating temperature, but all the innermost layers of the coatings are constitutive of (Nb,Ti)Al3 and (Cr,Al)2(Nb, Ti). Al-modified (Nb,X)Si2(X represents Ti,Cr and Hf) coatings with an Nb3Si5Al2 outermost layer are obtained by co-depositing Si and A1 at 1 050℃ for 8 h. The coatings prepared at 1000 ℃ for 8 h are mainly constitutive of (Nb,Ti)Al3, and the coatings prepared at 1100℃ for 8 h and 1150℃for 8h are mainly constitutive of (Nb,X)-(Si,Al)2 with 2.35%Al(mole fraction).
作者 田晓东 郭喜平
机构地区 西北工业大学凝固技术国家重点实验室
出处 《中国有色金属学报》 EI CAS CSCD 北大核心 2008年第1期7-12,共6页 The Chinese Journal of Nonferrous Metals
基金 国家自然科学基金资助项目(50671081) 教育部新世纪优秀人才支持计划
关键词 铌基超高温合金 包埋渗 Al改性硅化物涂层 Nb-based ultrahigh temperature alloy pack cementation Al-modified silicide coating
分类号 TG174.44 [金属学及工艺—金属表面处理]
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参考文献18

  • 1BEWLAY B P, JACKSON M R, ZHAO J C, SUBRAMANIAN P R. A review of very-high-temperature Nb-silicide-based composites[J], Metallurgical and Materials Transactions A, 2003, 34A: 2043-2052.
  • 2SARATH E, MENON K, MADAN G M. High temperature oxidation in multicomponent Nb alloys[J]. Material Science Forum, 2005, 475/479:717-720.
  • 3NICHOLLS J R. Advances in coating design for high-performance gas turbines[J]. MRS Bulletin, 2003, 9: 659-670.
  • 4赵群,于永泗.铌基合金的抗高温氧化性研究[J].材料导报,2003,17(2):29-31. 被引量:23
  • 5王禹,郜嘉平,李云鹏,胡行方.铌合金硅化物涂层的结构及高温抗氧化性[J].无机材料学报,2000,15(1):143-149. 被引量:32
  • 6MURAKAMI T, SASAKI S, ICHIKAWA K, KITAHARA A. Oxidation resistance of powder compacts of the Nb-Si-Cr system and Nb3Si5Al2 matrix compacts prepared by spark plasma sintering[J], Intermetallics, 2001, 9: 629-635.
  • 7XIANG Z D, DATTA P K. Deposition of silicon modified alpminide coatings on nickel base superalloys by pack cementation process[J]. Materials Science and Technology, 2003, 19: 935-942.
  • 8XIANG Z D, ROSE S R, BURNELL-GRAY J S, DATTA P K.Co-deposition of aluminide and silicide coatings on 7-TiAI by pack cementation process[J]. Journal of Materials Science, 2003, 38:19-28.
  • 9MAHDOUK K, GACHON J C. A thermodynamic study of the Al-Cr-Nb ternary system[J]. Journal of Alloys and Compounds. 2001, 321: 232-236.
  • 10HELLWIG A, PALM M, INDEN G. Phase equilibria in the Al-Nb-Ti system at high temperatures[J]. Intermetallics, 1998, 6: 79-94.

二级参考文献25

  • 1翟金坤,马祥,白新德,侯卫红.C-103铌合金上Si-Cr-Ti料浆熔烧涂层的改性研究[J].航空学报,1994,15(4):499-506. 被引量:20
  • 2冯景苏.铌应用的新进展[J].稀有金属材料与工程,1994,23(3):7-12. 被引量:29
  • 3上海科学技术情报研究所,难熔金属及其合金的防护涂层,1974年,17页
  • 4LoriaEA.用粉末冶金工艺制备的铌基高温合金[J].国外金属材料,1998,(7):51-51.
  • 5Inouye H. Niobium in Temperature Applications. In:Stu art H. Niobium Proc of Int Symposum. TMS,1984. 615
  • 6ШиняевАЯ ,идр. Влияниелегированиянапластичностьижаростойкостьниовия. Металловедениеитермитескаяобработка, 1993, (4): 35
  • 7Loria E A. Niobium-Based Superalloys via Powder Meta llurgy Technology. J Met, 1987,7: 22
  • 8Roger A P,Gerald H M. The oxidation behvior and pro tection of niobium. JOM, 1990,8 (1): 20
  • 9Odhammer P R,et al. Protection of Nb- and Ta- Based Alloys Against High Temperature Oxidation. J Refracto ry Metals & Hard Materials, 1993,12: 283
  • 10Strafford K N. High temperature conosion of alloys con taining rare earth or refractory elements. High Temp Tech,1983,16(1) :316

共引文献51

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二级引证文献27

中国有色金属学报
2008年 第1期

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