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概述了现有非晶合金的种类,并从合金的热力学、动力学和结构3个方面阐述了合金的非晶形成机理,同时全面总结和探讨了表征合金非晶形成能力的各种参数,主要包括Inoue经验规律、△H(熔化焓)、△S(熔化熵)、过冷液体温度区间△Tx(△Tx=Tx=Tg)、约化玻璃转变温度Trg(Trg=Tg/Tm)、粘度(η)、αβ1/3、临界冷却速度(Rc)、非晶晶化开始温度(Tx)与合金开始熔化温度(Tm)之比(Tx/Tm)、合金开始熔化温度(Tm)与玻璃转变温度(Tg)或非晶晶化开始温度(Tx)之差△Tm(△Tm=Tm-Tg或△Tm=Tm-Tx)、电子浓度e/a、原子尺寸、重力等.

参考文献

[1] Luborsky F E;柯成;唐与湛;罗阳.非晶态金属合金[M].北京:冶金工业出版社,1989
[2] 李福山,杜学山,任晨星,田高峰.Ga 对 Fe40Ni40P14B6 非晶合金电化学腐蚀行为的影响[J].郑州大学学报(工学版),2004(03):77-80.
[3] Duwez P;Willens R H;Klement W .Continuous series of metastable solid solutions in silver-copper alloys[J].Journal of Applied Physics,1960,31:1136.
[4] 王焕荣,石志强,滕新营,闵光辉,叶以富.合金非晶形成能力的研究进展[J].功能材料,2002(04):357-359.
[5] 赵德强,杨元政,李喜峰,仇在宏.大块非晶合金的形成能力及研究进展[J].金属功能材料,2003(03):36-39.
[6] 迟宝全 .合金非晶形成能力的研究[D].吉林大学,2003.
[7] 李福山,张秋美,侯军才.合金非晶形成能力影响因素探讨[J].郑州大学学报(工学版),2006(04):39-43.
[8] Uhlmann D R .A kinetic treatment of glass fromation[J].Journal of Non-Crystalline Solids,1972,7(04):337.
[9] Inoue A .High strength bulk amorphous alloys with low critical cooling rates[J].Materials Transactions-Japan Institute of Metals,1995,36(07):866.
[10] Prigogine I;Defay R .Surface thermodynamics[J].Journal of Colloid and Interface Science,1977,58(03):498.
[11] YANG Bing,DU Yong,LIU Yong.Recent progress in criterions for glass forming ability[J].中国有色金属学会会刊(英文版),2009(01):78-84.
[12] Inoue A .Bulk amorphous alloys with soft and hard magnetic properties[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,1997,226-228:357.
[13] Inoue A;Zhang T;Takeuchi A .Ferrous and nonferrous bulk amorphous alloys[J].Materials Science Forum,1998,269-272:855.
[14] Inoue A;Takeuchi A;Zhang T .Ferromagnetic bulk amorphous alloys[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1998,29:1779.
[15] Inoue A.Bulk amorphous alloys[M].Zurich:Trans Tech Publications,1998
[16] Turnbull D;Cohen M H .Free-volume model of the amorphous phase:Glass transition[J].Journal of Chemical Physics,1961,34:120.
[17] Lu Z P;Tan H;Li Y et al.The correlation between reduced glass transition temperature and glass forming ability of bulk metallic glasses[J].Scripta Materialia,2000,42:667.
[18] Lu ZP.;Ng SC.;Li Y. .Reduced glass transition temperature and glass forming ability of bulk glass forming alloys[J].Journal of Non-Crystalline Solids: A Journal Devoted to Oxide, Halide, Chalcogenide and Metallic Glasses, Amorphous Semiconductors, Non-Crystalline Films, Glass-Ceramics and Glassy Composites,2000(1/3):103-114.
[19] Ridge M I;Stenlake M;Howson R P et al.The application of ion plating to the continuous coating of flexible plastic sheet[J].Thin Solid Films,1981,80:31.
[20] Inoue A.;Zhang T. .Preparation of Bulk Pr-Fe-Al Amorphous Alloys and Characterization of Their Hard Magnetic Properties[J].Materials transactions,1996(12):1731-1740.
[21] Inoue A;Zhang T;Takeuchi A et al.Hard magnetic bulk amorphous Nd-Fe-Al alloys of 12 mm in diameterbade by suction casting[J].Materials Transactions-Japan Institute of Metals,1996,37:636.
[22] Inoue A .Bulk amorphous alloys[J].Pergamon Mater Ser,1999,2:375.
[23] Inoue A;Yokoyama Y;Shinohara Y et al.Preparation of bulky Zr-based amorphous alloys by a zone melting method[J].Materials Transactions-Japan Institute of Metals,1994,35:923.
[24] Wang Y M;Qiang J B;Wong C H et al.Composition role of bulk metallic glasses and quasicrystals using electron concentration criterion[J].Journal of Materials Research,2003,18(03):642.
[25] Chen W;Wang Y;Qiang J et al.Bulk metallic glasses in the Zr-Al-Cu system[J].Acta Materialia,2003,51(07):1899.
[26] Nagel S R;Tauc J .Nearly-free-electron approach to the theory of metallic glass alloys[J].Physical Review Letters,1975,35(06):380.
[27] Amand S R;Giessen B C .Easy glass formation in simple metal alloys[J].Scripta Materialia,1978,12:1021.
[28] Liou S H;Chien C L .Composition range of binary amorphous alloys[J].Physical Review B:Condensed Matter,1987,35(05):2443.
[29] 李工,孙力玲,王文魁.重力对ZrTiCuNiBe合金非晶形成能力的影响[J].科学通报,2001(18):1509-1511.
[30] Samwer K.;Johnson WL.;Busch R. .Change of compressibility at the glass transition and Prigogine-Defay ratio in ZrTiCuNiBe alloys[J].Physical review letters,1999(3):580-583.
[31] Pressure effect on glass transition in a Zr_(65)Al_(7.5)Cu_(27.5) metallic glass[J].Applied physics letters,2003(16):3284-3286.
[32] Jin H J;Gu X J;Wen P et al.Pressure effect on the structural relaxation and glass transition in metallic glasses[J].Acta Materialia,2003,51:6219.
[33] Lu Z P;Liu C T .A new glass-forming ability criterion for bulk metallic glasses[J].Acta Materialia,2002,50(13):3501.
[34] Chen QJ;Shen J;Zhang DL;Fan HB;Sun J;McCartney DG .A new criterion for evaluating the glass-forming ability of bulk metallic glasses[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2006(1-2):155-160.
[35] Yuan Z Z;Bao S L;Lu Y et al.A new criterion for evaluating the glass-forming ability of bulk glass forming alloys[J].Journal of Alloys and Compounds,2008,459:251.
[36] JI Xiu-lin,PAN Ye.A thermodynamic approach to assess glass-forming ability of bulk metallic glasses[J].中国有色金属学报(英文版),2009(05):1271-1279.
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