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简述了目前高温合金材料存在的问题,介绍了贵金属高温合金的主要特点,指出了研究贵金属高温合金的必要性,系统地综述了贵金属高温合金的研究成果、应用及目前存在的主要问题,最后展望了贵金属高温合金的研究方向.

参考文献

[1] 周永军,王瑞丹.镍基超合金的发展和研究现状[J].沈阳航空工业学院学报,2006(01):35-37.
[2] 杨英惠.用作高温结构材料的铂族金属间化合物[J].现代材料动态,2005(03):1.
[3] Sha J B;Yamabe-Mitarai Y;Harada H .Microstructural evaluation and mechanical properties of Ir-Hf-Zr ternary alloys at room and high temperatures[J].Intermetallics,2006,14:1364.
[4] 陈荣章,王罗宝,李建华.铸造高温合金发展的回顾与展望[J].航空材料学报,2000(01):55-61.
[5] 熊易芬.弥散强化铂的材料特性和应用研究[J].贵金属,1993(04):63-69.
[6] Rheaume J M;Müller B;Schulze M .XPS analysis of carbon-supported platinum electrodes and characterization of CO oxidation on PEM fuel cell anodes by electrochemical half cell methods[J].Journal of Power Sources,1998,76:60.
[7] Hill PJ.;Adams N.;Biggs T.;Ellis P.;Hohls J.;Taylor SS.;Wolff IM. .Platinum alloys based on Pt-Pt3Al for ultra-high temperature use[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2002(0):295-304.
[8] Mücklich F;Ili(c) N;Woll K.RuAl and its alloys,Part Ⅱ:Mechanical properties,environmental resistance and applications[J].Intermetallics,2008(16):593.
[9] 杨宗伦,刘伟廷,孙建林.氧化物弥散强化Pt/Pt-Rh合金机理研究[J].玻璃纤维,2009(05):1-5.
[10] 王健,卢峰,李宏,俞建树,李季.弥散强化Pt-5Au--新型的坩埚器皿材料[J].稀有金属,2005(04):455-457.
[11] 宁远涛.铂族金属高温固溶强化型合金[J].贵金属,2009(02):51-56.
[12] 向长淑,葛渊,张晗亮,李增峰,黄愿平,汤慧萍.耐超高温铱合金强韧化技术研究进展[J].材料导报,2009(13):7-10.
[13] Peter Panfilov;Alexander Yermakov .Plastic deformation of polycrystalline iridium at room temperature[J].Platinum Metals Review,2009,53(03):138.
[14] Yu XH.;Yamabe-Mitarai Y.;Nakazawa S.;Ro Y.;Harada H. .Drastically improved ductility of an Ir-base alloy by mixing Ir-Nb with Ni-Al[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2002(0):481-485.
[15] 潘文举,吴建社.超高温场合用的铑基超耐热合金[J].稀有金属快报,1998(06):1-3.
[16] Chen K;Zhao LR;Tse JS;Rodgers JR .Elastic properties of platinum Rh and Rh3X compounds[J].Physics Letters, A,2004(6):400-403.
[17] 赵昆瑜,黎鼎鑫.微量稀土提高铂的高温持久强度的机理[J].贵金属,1993(02):9-12.
[18] Hill P J;Biggs T;Ellis P .An assessment of ternary precipitation-strengthened Pt alloys for ultra-high temperature applications[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2001,301:167.
[19] 宁远涛.γ/γ'沉淀强化型铂族金属高温超合金[J].贵金属,2010(01):57-62.
[20] Wenderoth M;V(o)lkl R;Vorberg S .Microstructure,oxidation resistance and high-temperature strength of γ' hardened Pt-base alloys[J].Intermetallics,2007,15:539.
[21] Huang C;Yamabe-Mitarai Y;Nakazawa S .Mechanical properties of Ir-Nb-Pt-Al quaternary alloys[J].Materials Letters,2004,58:483.
[22] Yamabe-Mitarai Y;Aoki H .Solid-solution hardening of Ir by Pt and Ni[J].Materials Letters,2002,56:781.
[23] Yamabe-Mitari Y;Ro Y;Maruko T.Microstructure dependence of strength of Ir-base refractory superalloys[J].Intermetallics,1999(07):49.
[24] Süss R;Freund D;Volkl R .The creep behaviour of platinum-based γ/γ' analogues of nickel-based superalloys at 1300 ℃[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2002,338:133.
[25] Yamabe-Mitarai Y;Aoki H .An assessment of Ir-Pt-Alalloys for high-temperature materials[J].Journal of Alloys and Compounds,2003,359:143.
[26] Yamabe-Mitarai Y;Aoki H;Hill P et al.High-temperature mechanical properties of Ir-Al alloys[J].Scripta Materialia,2003,48:565.
[27] Huang C;Yamabe-Mitarai Y;Nakazawa S;Nishida K;Harada H .Investigation on phase relationships and creep properties of Ir-Nb-X (X = Hf, Ta, or Ti) ternary alloys[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2005(1/2):191-197.
[28] Yamabe-Mitarai Y;Nakazawa S;Harada H .Creep behavior of Ir-Nb and Ir-Zr alloys[J].Scripta Materialia,2000,43:1059.
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