综述了近半个世纪来M5Si3型硅化物研究的主要成果,从物理冶金的角度讨论了这一类化合物的共性和个性,阐述它们的相图与热力学性质、晶体结构、物理化学性质,还讨论了它们的制备、合金化与韧性化等方面的问题;最后,展望了M5Si3型硅化物研究的发展趋势和它们的工程应用前景.
参考文献
| [1] | Nowotny H,Kudielka H,Parthe E.Proc 2nd Plansee Seminar,Reutte/Tyrol,1955:166 |
| [2] | Nowotny H,Parthe E,Kieffer R,Benesovsky F.Monatsh Chem,1954;85:225 |
| [3] | Hansen M,Kessle H,Mcpherson D.Trans Am Soc Met,1952;44:518 |
| [4] | Lundin C,Mcpherson D,Hansen M.Trans Am Soc Met,1953;45:901 |
| [5] | Kieffer R,Benesovsky F,Schmid H.Z Metallk,1956;47:247 |
| [6] | Fitzer E.Proc 2nd Plansee Semin Springer,Vienna:1956;6:56-79 |
| [7] | Maxwell W A.Proc Metall Mater Information Meeting,Oka Ridge,TN,April,Rep.TID-5061(DEL),NSA-12,1951 |
| [8] | Samsonov G V.Slicides and Their Applications in Technology,Izd,AN UkrSSR,Kiev,1959 |
| [9] | Samsonov G V.Plenum Press Handbooks of High Temperature Materials,No.2-Properties Index,New York:Plenum Press,1964;2:28-187 |
| [10] | Schwarzkopf P,Kieffer R.Refractory Hard Metals,New York:Macmillan Company,1953;319-349 |
| [11] | Campbell I E.High Temperature Technology.New York:John Wiley Sons,1956:151-170 |
| [12] | Wehrmann R.In:Campbell I E,Sherwood E M eds,High-Temperature Materials and Technology,John Wiley & Sons Inc,1967:399-430 |
| [13] | Parthe E,Nowotny H,Schimid H.Monatsh Chem,1955;86:385 |
| [14] | Samsonov G,Neshpor V,Ermakova V,Khim Z N.Monatsh Chem,1958;3:868 |
| [15] | Parthe E,Lux B,Nowotny H.Monatsh Chem,1955;86:859 |
| [16] | Raghavan V.In:Baker H ed.,Phase Diagrams of Ternary Iron Alloys,Part 1,The Indian Institute of Metals and ASM International,1987:31 |
| [17] | Ageev N V.Diagrammy Sostoianiia Metallicheskikh Sistem.Moskow:Viniti Press,1964;10:182 |
| [18] | Willam J,Boettinger.Mater Sci Eng,1992;15A:33-44 |
| [19] | Skolozdra R V,Gladyshevskii E I.Visn L 'viv Derzh Univ Ser Khim,1967;9:21 |
| [20] | Kieffer R,Schob O,Nowotny H,Benesovsky F.Monatsh Chem,1962;93:517 |
| [21] | Yu A,Kocherzhinskii,Kulik O G.Metallofizika,1976;64:44 |
| [22] | Nowotny H,Dimakopoulou E,Kudieika H.MonatshChem,1957;88:180 |
| [23] | Kumar K S.In:Westbrook J H,Fleisc R Leds,Intermetallic Compounds,Vol.2,John Wiley & Sons Ltd,1994:211 |
| [24] | Huebsch J J,Kramer M J,Zhao H L,Akine M.Intermet,2000;8:143 |
| [25] | Kubaschewski O,Alock C B.Metallurgical Thermochemistry,5th Edition,London:Pergamon Press,1979:267-323 |
| [26] | Celis P B,Ishizaki K J.Mater Sci,1991;26:3497 |
| [27] | Nowotny H,lux B,Kudielka H.Monatsh Chem,1956;87:447 |
| [28] | Nowotny H,Kieffer R,Benesovsky F.Planseeber Pulvermet,1956;5:86 |
| [29] | Nowotny H,Kieffer R,Benesovsky F,Laube E.Acta Chim Acad Sci Hung,1959;18:35 |
| [30] | Parthe E.Powder Met Bull,1957;8:23 |
| [31] | Brewer L,Krikorian O.J Electrochem Soc,1956;103:38 |
| [32] | Anton D L,Shah D M.J Met,1989;41:12 |
| [33] | Park H C,Kim M S,Hwang S K.Scr Mater,1998;39:1585 |
| [34] | Novikov N P,Borovinskaya I P,Merzhanov A G,In:Merzhanov A G ed,Combustion Processes in Chemical Technology and Metallurgy,Chernogolovka,1975 |
| [35] | Maslov V M,Neganov A E,Borovinskaya I P,Merzhanov A G.Combustion Explos Shock Wave,1978;14:759 |
| [36] | Krueger B R,Mutz A H,Vreeland T.Metall Trans1992,23A:55 |
| [37] | Hardwick D A,Martin P L,Moores R J.Scr Met,1992;27:391 |
| [38] | Benjamin J S.Metall Trans,1970;1:2943 |
| [39] | Koch C C,McKamey O B,Mckamey C G,Scarbrough J O.Appl Phys Lett,1983;43:1017 |
| [40] | Koch C C,In:Cahn R W,Haasen P,Kramer E J eds,Materials Science and Technology,Vol.15,Germany:VCH,Weinheim,1991:193 |
| [41] | Koch C C,Whittenbergr J D.Intermet,1996;4:339 |
| [42] | Jeng Y L,Lavernia E J.J Mater Sci,1994;29:2557 |
| [43] | Caer G L,Bauer-Grosse E,Pianelli A,Bouzy E.J Mater Sci,1990;25:4726 |
| [44] | Viswanadham R K,Mannan S K,Kumar K S.Scr Metall,1988;22:1011 |
| [45] | Li M W,Tang R Z,Li W X.Trans Of Nfsoc of China,1996;5:118(李明威,唐仁正,黎文献.中国有色金属学报,1996;5:118) |
| [46] | Kumar K S.In:Liu C T ed,High-Temperature Ordered Intermetallic Alloys III.Pennsylvania:MRS,Pittsbuvgh,1989;133:415 |
| [47] | Oehring M,Bormann R.Mater Sci Eng,1991;134A:1330 |
| [48] | Schwarzand R B,Johnson W L.Phys Rev Lett,1983;51:415 |
| [49] | Umakoshi Y,Nakashima T,Nakano T,Yanagisawa E.Mater Res Soc Symp Proc,1994;322:9 |
| [50] | Shah D M,Berezik D.Mater Sci and Eng,1992;15A:45 |
| [51] | Anton D L,Shah D M.Mater Res Soc Symp Proc,1991;213:733 |
| [52] | Shaffer P T B.Plenum Press Handbooks of HighTemperature Materials.No.1-Materials Index,New York:Plenum Press,1964;131 |
| [53] | Nakashima T,Umakoshi Y.Philos Mag Letters,1992;66:317 |
| [54] | Meyer M K,Akinc M.J Am Ceram Soc,1996;79:938 |
| [55] | Yi D Q,Li C H.Metall Mater Trans,1998;29A:1 |
| [56] | Lai Z H,YD Q.Scr Meter,1994;31:815 |
| [57] | Ikarashi Y,Ishizaki K.Mater Res Soc Symp Proc,1994;322:235 |
| [58] | Celis P B,Kagawa E,Ishizaki K.J Mater Res,MRS,1991;6:2077 |
| [59] | Vehoff H,Reuss S,Reub S,W Vogt,Specht P.In:Darolia R,Lewandowski J J,Liu C T,Martin P L,Miracle D B,Nathal M V eds,Structural Intermetallics,TMS,1993;657 |
| [60] | Rigney J D,Singh P M,Lewandowski J J.Mater Res Soc Symp Proc,1994;322:503 |
| [61] | kajuch J,Rigney J D,Lewandowski J J.Mater Sci and Eng,1992;155A:59 |
| [62] | Rigney J D,Lewandowski J J,Matson L,Mendiratta M G,Dimiduk D M.Mater Res Soc Symp Proc,1991;213:1001 |
| [63] | Mendiratta M G,Dimiduk D M.Metall Trans,1993;24A:501 |
| [64] | Mendiratta M G,Levandowski J J,Dimiduk D M.Metall Trans,1991;22A:1573 |
| [65] | Fitzer E.Ceram Trans,1989;10:19 |
| [66] | Bartlett R W,McCamont J W,Gage P R.J Am Ceram Soc,1965;48:551 |
| [67] | Beyers R.J Appl Phys,1984;56:47 |
| [68] | Berkowitz-Mattuck J B,Dils R R.J Electrochem Soc,1965;112:583 |
| [69] | Anton D L,Shah DM.Mater Res Soc Symp Proc,1991;213:733 |
| [70] | Meyer M K,Kramer M,Akine M.Adv Mater,1996;8:851995 |
| [71] | Williams J M,Akine M.Intermetallics,1998;6:269 |
| [72] | Murata Y,Higuchi T,Takeda Y,Morinaga M,Yukawa N.In:Izumi O ed,Intermetallic Compounds-Structure and Properties,Sendai:Japan Institute of Metals,627 |
| [73] | Mccolm I J,Ward J M.J Alloys Compound,1992;178:91 |
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