在Ti-60合金中碳的加入量大于0.17%时,组织中析出TiC结构的碳化物.在α+β相区再结晶,碳偏聚于初生α(αp)相,导致碳化物主要在β转变组织中析出,其析出的百分数取决于αp体积分数.在β相区热处理,析出的碳化物钉扎β原始晶界,阻碍β晶粒的长大.β晶粒尺寸D、碳化物颗粒直径d和体积分数f三者遵循D/d∝f-1/3关系.随着碳含量的增加,β晶粒尺寸减小,α'片层通过界面迁移迅速长大以及形成α片层的合金元素的扩散速度加快,导致α'或α片层的厚度增加.碳的加入量小于0.09%时,碳完全固溶于基体中,产生固溶强化,β晶粒细小,导致合金的强度和蠕变抗力提高.碳含量增加导致粗大碳化物颗粒的析出,变形时产生应力集中使合金的塑性和蠕变性能降低.
参考文献
| [1] | G.Liitjering,Property optimization through microstructural control in titanium and aluminum alloys,Mater.Sci.Eng.,A263,117(1999) |
| [2] | H.M.Flower,D.R.F.West,The effect of silicon on the structure and mechanical properties of an α+β titanium alloy,J.Mater.Sci.,17,1221(1982) |
| [3] | M.Es-souni,Creep deformation behavior of three hightemperature near α-Ti alloys,Metall.Mater.Trans.,32A,285(2001) |
| [4] | C.Leyens,M.Peters,D.Weinem,W.A.Kaysser,Influence of long-term annealing on tensile properties and fracture of near-α titanium alloy Ti-6Al-2.75Sn-4Zr-0.4Mo-0.45Si,Metall.Mater.Trans.,27A,1709(1996) |
| [5] | D.Weinem,J.Kuimpfert,M.Perters,W.A.Kaysser,Processing window of the near-α-titanium alloy TIMETAL-1100 to produce a fine-grained β-structure,Mater.Sci.Eng.,A206,55(1996) |
| [6] | Y.G.Li,P.A.Blenkinsop,M.H.Loretto,D.Rugg,W.Voice,Effect of carbon and oxygen on microstructure and mechanical properties of Ti-25V-15Cr-2Al (wt%) alloys,Acta Mater.,47,2889(1999) |
| [7] | S.Z.Zhang,G.P.Li,Y.Y.Liu,R.Yang,Effect of carbon on the upper (alpha+beta) phase field of titanium alloy Ti-5.6Al-4.8Sn-2Zr-1Mo-0.35Si,Mater.Sci.Technol.,20,167(2004) |
| [8] | C.Ouchi,H.Iizumi,S.Mitao,Effect of ultra-high purification and addition of interstitial elements on properties of pure titanium and titanium alloy,Mater.Sci.Eng.,A243,186(1998) |
| [9] | D.F.Neal,Optimization of creep and fatigue resistance in high temperature Ti alloys IMI 829 and IMI 834,Titanium Science and Technology (Oberursel,Deutsche Gesellschaft f ü r Metallkunde 1985) p.2419 |
| [10] | S.Z.Zhang,G.P.Li,Y.Y.Liu,R.Yang,Effect of carbon on the distribution of alloy elements in Ti-5.6Al-4.8Sn-2Zr-1Mo-0.35Si titanium alloy,Proc of 10th World Conference on Titanium,2004,p.1115 |
| [11] | C.Zener,Theory of growth of spherical precipitates from solid solution,Trans.Metall.Soc.AIME,15,175(1948) |
| [12] | D.J.Srolovitz,M.P.Anderson,G.S.Grest,P.S.Sahni,Computer simulation of grain growth-Ⅲ.Influence of a particle dispersion,Acta Metall.,32,1429(1984) |
| [13] | P.Hellman,M.Hillert,On the effect of second-phase particles on grain growth,Scand.J.Met,4,211(1975) |
| [14] | P.M.Hazzledine,R.D.J.Oldershaw,Computer simulation of Zener pinning,Phil.Mag.,61A,579(1990) |
| [15] | T.Y.Hsu,Martensitic Transformation and Martensite (Beijing,Science Press,1999) p.779(徐祖耀,马氏体相变与马氏体(北京,科学出版社,1999)p.779) |
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