Gum Metal特指一类符合某些特定电子状态参数和成分条件的钛合金,具有很多特异的性能,如室温超塑性、低加工硬化率,经历超过90%的冷旋锻后具有高强度、非线性超弹性、低的杨氏模量,以及Invar和Elinvar性能等.自Gum Metal问世以来,其特异性能的机理和变形机制便一直存在很大的争议.本文结合作者近几年的研究工作,从合金设计、制备工艺、性能、成分敏感性和塑性变形行为等几个方面,综合评述了该类合金的研究现状.
参考文献
| [1] | T.Saito,T.Furuta,J.H.Hwang,S.Kuramoto,K.Nishino,N.Suzuki,R.Chen,A.Yamada,K.Ito,Y.Seno,T.Nonaka,H.Ikehata,N.Nagasako,C.Iwamoto,Y.Ikuhara,T.Sakuma,Multifunctionalalloysobtainedviaa dislocation-free plastic deformation mechanism,Science,300(18),464(2003) |
| [2] | J.Hwang,S.Kuramoto,T.Furuta,K.Nishino,T.Saito,Phase-stability dependence of plastic deformation behavior in Ti-Nb-Ta-Zr-O alloys,Journal of Materials Engineering and Performance,14(6),747(2005) |
| [3] | S.Kuramoto,T.Furuta,J.H.Hwang,K.Nishino,T.Saito,EBSP analysis on microstructure of gum metal after plastic deformation,Journal of the Japan Institute of Metals,69(11),953(2005) |
| [4] | S.Kuramoto,T.Furuta,J.H.Hwang,K.Nishino,T.Saito,Plastic deformation in a multifunctional Ti-Nb-Ta-Zr-O alloy,Metallurgical and Materials Transactions A,37(3),657(2006) |
| [5] | T.Furuta,S.Kuramoto,R.Chen,J.H.Hwang,K.Nishino,T.Saito,M.Ikeda,Effect of oxygen on phase stability and elastic deformation behavior in Gum Metal,Journal of the Japan Institute of Metals,70(7),579(2006) |
| [6] | T.Furuta,S.Kuramoto,J.H.Hwang,K.Nishino,T.Saito,Elastic deformation behavior of multi-functional TiNb-Ta-Zr-O alloys,Materials Transactions,46(12),3001(2005) |
| [7] | T.Furuta,S.Kuramoto,J.H.Hwang,K.Nishino,T.Saito,M.Niinomi,Mechanical properties and phase stability of Ti-Nb-Ta-Zr-O alloys,Materials Transactions,48(5),1124(2007) |
| [8] | T.Furuta,K.Nishino,J.H.Hwang,A.Yamada,K.Ito,S.Osawa,S.Kuramoto,N.Suzuki,R.Chen,T.Saito,Development of multi functional titanium alloy,"GUM METAL",Ti-2003 Science and Technology,Proceedings of 10th World Conference on Titanium,Weinheim:WileyVCH,1519(2003) |
| [9] | S.Kuramoto,T.Furuta,J.H.Hwang,K.Nishino,T.Saito,Elastic properties of Gum Metal,Materials Science and Engineering A,442(1-2),454(2006) |
| [10] | S.Kuramoto,T.Furuta,J.H.Hwang,Y.Seno,T.Nonaka,H.Ikehata,N.Nagasako,K.Nishino,T.Saito,C.Iwamoto,Y.Ikuhara,T.Sakuma,Origin for"super" properties in GUM METAL,Ti-2003 Science and Technology,Proceedings of 10th World Conference on Titanium,Weinheim:Wiley-VCH,1527(2003) |
| [11] | M.Abdel-Hady,K.Hinoshita,M.Morinaga,General approach to phase stability and elastic properties of β-type Ti-alloys using electronic parameters,Scripta Materialia,55(5),477(2006) |
| [12] | H.Ikehata,N.Nagasako,T.Furuta,A.Fukumoto,K.Miwa,T.Saito,First-principles calculations for development of low elastic modulus Ti alloys,Physical Review B,70(17),174113(2004) |
| [13] | H.Ikehata,N.Nagasako,S.Kuramoto,T.Saito,Designing new structural materials using density functional theory:the example of Gum Metal,MRS Bulletin,31(9),688(2006) |
| [14] | T.Aoyama,H.Kawamura,S.Kotake,Y.Suzuki,Influence of Containerleas solidification on hardness in multifunctional titanium based alloys,Key Engineering Materials,297-300,495(2005) |
| [15] | Y.Yang,G.P.Li,G.M.Cheng,H.Wang,M.Zhang,F.Xu,K.Yang,Stress-introduced α" martensite and twinning in a multifunctional titanium alloy,Scripta Materialia,58(1),9(2008) |
| [16] | R.J.Talling,R.J.Dashwood,M.Jackson,D.Dye,On the mechanism of superelasticity in Gum metal,Acta Materialia,57(4),1188(2009) |
| [17] | R.J.Talling,R.J.Dashwood,M.Jackson,S.Kuramotoc,D.Dye,Determination of (C11-C12) in Ti-36Nb-2Ta-3Zr-0.3O (wt.%)(Gum metal),Scripta Materialia,59(6),669(2008) |
| [18] | M.Y.Gutkin,T.Ishizaki,S.Kuramoto,I.A.Ovid'ko,Nanodisturbances in deformed Gum Metal,Acta Materialia,54(9),2489(2006) |
| [19] | M.Y.Gutkin,T.Ishizaki,S.Kuramoto,I.A.Ovid'ko,N.V.Skiba,GiantfaultsindeformedGumMetal,International Journal of Plasticity,24(8),1333(2008) |
| [20] | Y.Yang,G.P.Li,G.M.Cheng,Y.L.Li,K.Yang,Multiple deformation mechanisms of Ti-22.4Nb-0.73Ta-2.0Zr-1.34Oalloy,Applied Physics Letters,94(6),061901(2009) |
| [21] | Y.Yang,S.Q.Wu,G.P.Li,Y.L.Li,Y.F.Lu,K.Yang,P.Ge,Evolution of deformation mechanisms of Ti-22.4Nb0.73Ta-2Zr-1.34O alloy during straining,Acta Materialia,58(7),2778(2010) |
| [22] | YANG Yi,LI Geping,WU Songquan,LI Yulan,YANG Ke,Effect of Nb content on flow behavior of Ti-Nb-0.7Ta-2Zr-1.4O alloy during cold compression,The Chinese Journal of Nonferrous Metals,20S,495(2010)(杨义,李阁平,吴松全,李玉兰,杨柯,Nb含量对Ti-Nb-0.7Ta-2Zr-1.4O合金室温压缩流变行为的影响,中国有色金属学报,20S,495(2010)) |
| [23] | H.Xing,W.Y.Guo,J.Sun,Substructure of recovered Ti-23Nb-0.7Ta-2Zr-0 alloy,Transactions of Nonferrous Metals Society of China,17(6),1456(2007) |
| [24] | H.Xing,J.Sun,Mechanical twinning and omega transition by (111〉{112} shear in a metastable β titanium alloy,Applied Physics Letters,93(3),031908(2008) |
| [25] | H.Xing,J.Sun,Q.Yao,W.Y.Guo,R.Chen,Origin of substantial plastic deformation in Gum Metals,Applied Physics Letters,92(15),151905(2008) |
| [26] | E.Withey,M.Jin,A.Minor,S.Kuramoto,D.C.Chrzan,J.W.M.Jr.,The deformation of "Gum Metal" in nanoindentation,Materials Science and Engineering A,493(1-2),26(2008) |
| [27] | E.A.Withey,A.M.Minor,D.C.Chrzan,J.W.M.Jr.,S.Kuramoto,The deformation of Gum Metal through in situ compression of nanopillars,Acta Materialia,58(7),2652(2010) |
| [28] | E.A.Withey,J.Ye,A.M.Minor,S.Kuramoto,D.C.Chrzan,J.W.M.Jr.,Nanomechanical testing of Gum Metal,Experimental Mechanics,50(1),37(2010) |
| [29] | L.Q.Wang,W.J.Lu,J.N.Q,F.Zhang,D.Zhang,Influence of cold deformation on martensite transformation and mechanical properties of Ti-Nb--Ta-Zr alloy,Journal of Alloys and Compounds,469(1-2),512(2008) |
| [30] | L.Q.Wang,W.J.Lu,J.N.Qin,F.Zhang,D.Zhang,Microstructure and mechanical properties of cold-rolled TiNbTaZr biomedical β titanium alloy,Materials Science and Engineering A,490(1-2),421(2008) |
| [31] | Y.B.Wang,Y.H.Zhao,Q.Lian,X.Z.Liao,R.Z.Valiev,S.P.Ringer,Y.T.Zhue,E.J.Lavernia,Grain size and reversible beta-to-omega phase transformation in a Ti alloy,Scripta Materialia,63(6),613(2010) |
| [32] | J.W.M.Jr.,Y.Hanlumyuang,M.Sherburne,E.Withey,D.C.Chrzan,S.Kuramoto,Y.Hayashi,M.Hara,Anomalous transformation-induced deformation in 〈110〉 textured Gum Metal,Acta Materialia,58(9),3271(2010) |
| [33] | R.J.Talling,R.J.Dashwood,M.Jackson,D.Dye,Compositional variability in gum metal,Scripta Materialia,60(11),1000(2009) |
| [34] | T.Yano,Y.Murakami,D.Shindo,S.Kuramoto,Study of the nanostructure of Gum Metal using energy-filtered transmission electron microscopy,Acta Materialia,57(2),628(2009) |
| [35] | T.S.Li,J.J.W.Morris,N.Nagasako,S.Kuramoto,D.C.Chrzan,"Ideal" engineering alloys,Physical Review Letters,98(10),105503(2007) |
| [36] | T.Yano,Y.Murakami,D.Shindo,Y.Hayasaka,S.Kuramoto,Transmission electron microscopy studies on nanometer-sized ω phase produced in Gum Metal,Scripta Materialia,63(5),536(2010) |
| [37] | W.Y.Guo,J.Sun,J.S.Wu,Effect of deformation on corrosion behavior of Ti-23Nb-0.7Ta-2Zr-O alloy,Materials Characterization,60(3),173(2009) |
| [38] | W.Y.Guo,J.Sun,J.S.Wu,Electrochemical and XPS studies of corrosion behavior of Ti-23Nb-0.7Ta-2Zr-O alloy in Ringer's solution,Materials Chemistry and Physics,113(2-3),816(2009) |
| [39] | T.Saito,T.Furuta,J.H.Hwang,S.Kuramoto,K.Nishino,N.Suzuki,R.Chen,A.Yamada,K.Ito,Y.Seno,T.Nonaka,H.Ikehata,N.Nagasako,C.Iwamoto,Y.Ikuhara,T.Sakuma,Multi functional titanium alloy "GUM METAL",Materials Science Forum,426-432,681(2003) |
| [40] | S.Hanada,O.Izumi,Transmission Electron Microscopic Observations of mechanical twinning in metastable beta titanium alloys,Metallurgical Transactions A,17(8),1409(1986) |
| [41] | S.Hanada,M.Ozeki,O.Izumi,Deformation characteristics in β phase Ti-Nb alloys,Metallurgical Transactions A,16(5),789(1985) |
| [42] | H.Y.Kim,Y.Ikehara,J.I.Kim,H.Hosoda,S.Miyazaki,Martensitic transformation,shape memory effect and superelasticity of Ti-Nb binary alloys,Acta Materialia,54(9),2419(2006) |
| [43] | H.S.Kim,S.H.Lim,I.D.Yeo,W.Y.Kim,Stress-induced martensitic transformation of metastable β-titanium alloy,Materials Science and Engineering A,449-451,322(2007) |
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