从Al基非晶态合金结构特性的视角,评述了目前与非晶合金形成能力相关的一些重要理论和判据,以期推动具有块体玻璃形成能力的Al基非晶态合金体系的设计与研制.
参考文献
| [1] | K.Klement,R.H.Wilieus,P.Duwez,Metallurgy non-crystalline structure in solidified gold-silicon alloys,Na-ture,187,869(1960) |
| [2] | W.L.Johnson,Bulk glass forming metallic alloys:science and technology,Mat.Res.Soc.Symp.Proc,554,311(1999) |
| [3] | Y.He,S.J.Poon,G.J.Shiflet,Synthesis and properties of metallic glasses that contain aluminum,Science,241,1640(1988) |
| [4] | J.H.Perepezko,R.J.Herbert,Amorphous aluminum alloys-synthesis and stability,JOM,54,34(2002) |
| [5] | A.Inoue,N.Matsumoto,T.Masumoto,Al-Ni-Y-Co amor-phous alloys with high mechanical strengths,wide su-perceoled liquid region and large glass forming capacity,Mater.Trans.JIM.,31,493(1990) |
| [6] | H.W.Yang,P.Dong,J.Q.Wang,Y.Li,Glass formability and structural stability of Al-based alloy systems,Mater.Sci.Eng.A,449-451,273(2007) |
| [7] | P.Dong,J.Zhang,W.L.Hou,X.C.Chang,J.Q.Wang,M.X.Quan,Investigation of glass formability in Al-Co-Y ternary system,J.Mater.Sci.Tech.accepted |
| [8] | A.Inoue,Amorphous,nanoquasicrystalline and nanocrys-talline alloys in Al-based systems,Prog.Mater.Sci.,43,365 (1998) |
| [9] | F.Q.Guo,S.J.Poon,G.J.Shiflet,Glass formability in Al-based multinary alloys,Mater.Sci.Forum.,331-337,31(2000) |
| [10] | W.S.Sanders,J.S.Warner,D.B.Miracle,Stability of Al-rich glasses in the AI-La-Ni system,Intermetallics.,14,348(2006) |
| [11] | P.Nash,R.B.Schwarz,Calculation of the glass forming range in binary metallic systems using thermodynamic models,Acta Metall.,36(11),3047(1988) |
| [12] | G.J.VanderKolk,A.R.Miedema,A.K.Niessen,On the composition range of amorphous binary transition metal alloys,J.Less-Common Met.,145,1(1988) |
| [13] | Y.K.Kim,J.R.Soh,D.K.Kim,H.M.Lee,Glass formation in metallic AI-Ni-Y,J.Non-Cryst.Solids,242,122(1998) |
| [14] | A.W.Zhu,G.J.Shiflet,D.B.Miracle,Glass forming ranges of Al-rare earth metal alloys:thermodynamic and kinetic analysis,Scripta Mater.,50,987(2004) |
| [15] | C.A.Angell,Formation of glasses from liquids and biopoly-mere,Science,267,1924(1995) |
| [16] | X.F.Bian,B.A.Sun,L.N.Hu,Y.B.Jia,Fragility of super-heated melts and glass-forming ability in Al-based alloys,Phys.Lett.A,335,61(2005) |
| [17] | D.H.Xu,W.L.Johnson,Crystallization kinetics and glass-forming ability of bulk metallic glasses Pd《,40》Cu《,30》Ni《,10》P《,20》 and Zr《,41.2》Ti《,13.8》Cu《,12.5》Ni《,10》Be《,22.5》 from classical theory,Phys.Rev,B,74,024207(2006) |
| [18] | A.W.Zhu,S.J.Poon,G.J.Shiflet,On glass formability of Al-Gd-Ni(Fe),Scripta Mater.,50,1451(2004) |
| [19] | A.Inoue,Stabilization of metallic supercooled liquid and bulk amorphous alloys,Acta Mater.,48,279(2000) |
| [20] | T.Egami,Y.Waseda,Atomic size effect on the formability of metallic glasses,J.Non-Cryst.Solids,64,113(1984) |
| [21] | O.N.Senkov,D.B.Miracle,A topological model for metal-lic glass formation,J.Non-Cryst.Solids.,317,34(2003) |
| [22] | A.L.Greer,Confusion by design,Nature,366,303(1993) |
| [23] | W.L.Johnson,Fundamental aspects of bulk metallic glass formation in multicemponent alloys,Mater.Soi.Forum,225-227,35(1996) |
| [24] | F.Q.Guo,S.Enouf,G.J.Shiflet,S.J.Poon,Role of atomic size on glass formability and thermal stability of Al-based amorphous alloys,Mater.Trans.JIM,41,1406(2000) |
| [25] | C.S.Ma,J.Zhang,X.C.Chang,W.L.Hou,J.Q.Wang,Elec-tronegativity difference as a factor for evaluating thermal stability of Al-rich metallic glasses,Philos.Mag.Lett.,accepted |
| [26] | O.N.Senkov,D.B.Miracle,Effect of the atomic size dis-tribution on glass forming ability of amorphous metalfic alloys,Mater.Res.Bulli.,36,2183 (2001) |
| [27] | D.B.Miracle,W.S.Sanders,O.N.Senkov,The influence of efficient atomic packing on the constitution of metallic glasses,Phlios.Mag.,83(20),2409(2003) |
| [28] | F.Q.Guo,S.Enouf,S.J.Poon,Formation of ductile Al-based metallic glasses without rare-earth elements,Philos.Mag.Lett.,81(3),203(2001) |
| [29] | D.V.Louzguine,A.Inoue,Electronegativity of the con-stituent rare-earth metals as a factor stabilizing the su-percooled liquid region in Al-based metallic glasses,Appl.Phys.Lett.,79,3410(2001) |
| [30] | D.V.Louzguine,A.Inoue,W.J.Botta F.,Reduced elec-tronegativity difference as a factor leading to the forma-tion of Al-based glassy alloys witha large supercooled liq-uid region of 50 K,Appl.Phys.Lett.,88,011911(2006) |
| [31] | X.K.Xi,D.Q.Zhao,M.X.Pan,W.H.Wang,On the crite-ria of bulk metallic glass formation in MgCu-based alloys,Intermetallics,13,638 (2005) |
| [32] | S.R.Nagel,J.Tauc,Nearly-free-elctron approach to the theory of metallic glass alloys,Phys.Rev.Lett.,35(6),380(1975) |
| [33] | W.H.Wang,C.Dong,C.H.Shek,Bulk metallic glasses,Mater.Sci.Eng.R,44,45(2004) |
| [34] | J.D.Bernal,J.Mason,Packing of spheres:co-ordination of randomly packed spheres,Nature,188,910(1960) |
| [35] | P.H.Gaskell,A new structural model for transition metal-metalloid glasses,Nature,276,484(1978) |
| [36] | D.B.Miracle,A structural model for metallic glasses,Na-ture Mater.,3,697(2004) |
| [37] | H.W.Sheng,W.K.Luo,F.M.Alamgir,J.M.Bai,E.Ma,Atomic packing and short-to-medium-range order in metallic glasses,Nature,439,419(2006) |
| [38] | S.J.Poon,G.J.Shiflet,F.Q.Guo,V.Ponnambalam,Glass formability of ferrous-and aluminum-based structural metallic alloys,J.Non-Cryst.Solids,317,1(2003) |
| [39] | H.Yang,J.Q.Wang,Y.Li,Glass formation and microetruc-ture evolution in Al-Ni-RE (RE=La,Ce,Pr,Nd and Mm) ternary systems,Philos.Mag.,87(21),4211(2007) |
| [40] | D.B.Miracle,The efficient cluster packing model-An atomic structural model for metallic glasses,Acta Mater.,54(16),4317(2006) |
| [41] | A.P.Wang,J.Q.Wang,A topological approach to design Ni-based bulk metallic glasses with high corrosion resis-tance,J.Mater.Res.,22(1),1(2007) |
| [42] | A.P.Wang,J.Q.Wang,E.Ma,A modified efficient cluster packing model for calculating alloy compositions with high glass forming ability,Appl.Phys.Lett.,90,121912(2007) |
| [43] | D.B.Miracle,O.N.Senkov,A geometric model for atomic configurations in amorphous Al alloys,J.Non-Cryst.Solids,319,174(2003) |
| [44] | O.G.Shpyrko,R.Streitel,V.S.K.Balagurnsamy,A.Y.Grigoriev,M.Deutsch,B.M.Ocko,M.Meron,B.Lin,P.S.Pershan,Surface crystallization in a liquid AuSi alloy,Science,313,77(2006) |
| [45] | D.Turnbull,Under what conditions can a glass be formed,Contemp.Phys.,10(5),473(1969) |
| [46] | A.Inoue,T.Zhang,T.Masumoto,Glass-forming ability of alloys,J.Non-Cryst.Solids,156-158,473(1993) |
| [47] | Z.P.Lu,C.T.Liu,Role of minor alloying additions in for-mation of bulk metallic glasses:A Review,J.Mater.Sci.,39,3965(2004) |
| [48] | A.Mukhopadhyay,K.E.Spence,L.Q.Xing,W.E.Buhro,K.F.Kelton,An Al-rich metallic glass with a large super-cooled liquid region,Philos.Mag.,87(2),281(2007) |
| [49] | Z.P.Lu,C.T.Liu,A new glass-forming ability criterion for bulk metallic glasses,Acta Mater.,50,3501(2002) |
| [50] | R.D.SáLisboa,C.Bolfarini,W.J.Botta F.,C.S.Kiminami,Topological instability as a criterion for design and selec-tion of aluminum-based glass-former alloys,Appl.Phys.Lett.,86,211904(2005) |
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