Cyclic Oxidation Behavior of NiCrAlY Coating Deposited on Co Based High-temperature Alloy by ARC Ion Plating Technology
摘 要
采用电弧离子镀在钴基高温合金K640基体上制备了NiCrAlY涂层,并进行了真空退火处理.通过X射线衍射、扫描电镜和能谱分析等技术对涂层的相结构和基体及涂层在1 000 ℃下的抗循环氧化行为进行了研究.结果表明:沉积态涂层主要由γ-Ni、γ′-AlNi3和β-NiAl等物相组成,元素分布均匀;涂层真空退火后衍射峰尖锐,晶粒明显长大,主要由γ-Ni、γ′-AlNi3、β-NiAl和α-Cr以及极少量的 Cr23C6组成.涂层在循环氧化过程中形成Al2O3保护膜,经过100次循环后Al2O3氧化膜仍然完好.真空退火可使溅射涂层表面较早生成保护性能良好的α-Al2O3氧化膜,提高了涂层的抗氧化性能.
Abstract
The NiCrAlY coatings were produced on a Co-based high-temperature alloy substrate by arc ion plating and annealed under vacuum conditions.The phase and the cyclic oxidation behavior of the cast alloy and the deposited coatings were investigated at 1 000 ℃ by using XRD,SEM and EDS technologies.It is shown that the deposited NiCrAlY coating,which consisted of a three-phase mixture:γ-Ni,γ′-AlNi3 and β-NiAl phase,have a homogeneous elemental distribution.After vacuum heat treatment,the grains in the coatings become much larger,the deposited NiCrAlY coating mainly consiste of γ-Ni,γ′-AlNi3,β-NiAl,α-Cr and trace of Cr23C6.The deposited coating surface forms Al2O3 scale during the cycles,and the Al2O3 scale is still perfective after 100 cycles.The deposited NiCrAlY coating after vacuum heat treatment forms α-Al2O3 much earlier and the α-Al2O3 scale has a better adherence to the NiCrAlY coating.Therefore vacuum heat treatment improves the oxidation resistance of arc ion plated NiCrAlY coating.
中图分类号 TG132.3 TG174.442
所属栏目
基金项目 中国博士后基金资助项目(20060400261)
收稿日期 2007/2/5
修改稿日期 2007/5/15
网络出版日期
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备注周宏明(1974-),男,湖南茶陵人,副教授,博士.
引用该论文: ZHOU Hong-ming,YI Dan-qing. Cyclic Oxidation Behavior of NiCrAlY Coating Deposited on Co Based High-temperature Alloy by ARC Ion Plating Technology[J]. Materials for mechancial engineering, 2007, 31(12): 54~58
周宏明,易丹青. 钴基高温合金表面电弧离子镀NiCrAlY涂层的抗高温氧化性能[J]. 机械工程材料, 2007, 31(12): 54~58
被引情况:
【1】王东生,田宗军,沈理达,黄因慧, "激光熔覆MCrAlY涂层的研究现状",机械工程材料 37, 1-5(2013)
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【3】孙超,王启民,唐永吉,等.电弧离子镀NiCoCrAlY涂层的组织结构及初期氧化[J].金属学报,2005(11):1167-1173.
【4】Czech N,Fietzek H,Juez-Lorenzo M,et al.Studies of the bond–coat oxidation and phase structure of TBCs[J].Surf Coat Technol,1999,113(1/2):157-162.
【5】Nicoll A R,Wahl G.The effect of alloying additions of M-Cr-Al-Y systems——an experimental study[J].Thin Solid Films,1982,95:21-34.
【6】Nicholls J R,Simms N J,Chan W Y,et al.Smat overlay coatings-concept and practice[J].Surf Coat Technol,2002,149:236-244.
【7】Guo M H,Wang W M,Ke P L,et al.The preparation and hot corrosion resistance of gradient NiCoCrAlYSiB coatings surface and coatings technology[J].Surf Coat Technol,2006,200(12/13):3942-3949.
【8】Lewis Research Center.Improved bond-coat layers for thermal barrier coatings[R].Washington.D.C:NASA,2000.
【9】李美姮,张重远,孙晓峰,等.真空热处理对镍基单晶高温合金溅射NiCrAlY涂层抗氧化性能的影响[J].中国腐蚀与防护学报,2002,22(3):153-157.
【10】Wang Q M,Wu Y N,Ke P L,et al.Hot corrosion behavior of AIP NiCoCrAlY(SiB) coatings on nickel base superalloys[J].Surf Coat Technol,2004,186(3):389-397.
【11】Rybicki G C,Smialek K L.Effect of the θ→α-Al2O3 transformations on the oxidation behavior of the β-NiAl+Zr[J].Oxid Met,1989,31:275-280.
【12】Moychak J,Smialek J L.TEM studies of oxidized NiAl and Ni3Al cross section[J].Oxid Met,1989,31:431-436.
【13】Luthra K L,Briant C L.Mechanism of adhesion of alumina on McrAlY alloys[J].Oxid Met,1986,26:397-403.
【14】Doychak J,Smialek J L,Mitchell T E.Transient oxidation of single-crystal-NiAl[J].Metall Trans A,1989,20(3):499-518.
【15】Pint B A,Treska M,Hobbs L W.The effect of various oxide dispersions on the phase composition and morphology of Al2O3 scales grown on β-NiAl[J].Oxid Met,1997,47(1/2):1-20.
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