研究了热处理对Ti-24Nb-4Zr-8Sn(Ti2448)合金冷轧板材的显微组织和力学性能的影响,结果表明:Ti2448合金的杨氏模量和力学性能对其显微组织很敏感.在550-850℃,随着退火处理温度的升高Ti2448合金板材的晶粒长大,强度和杨氏模量降低而塑性提高;在400-500℃时效处理,合金中析出α相.控制时效时析出α相的形貌、含量和析出位置,可以调节合金强度、杨氏模量和塑性之间的匹配关系;控制热处理温度和时间可以实现高强度、低杨氏模量和良好室温塑性的匹配.
参考文献
| [1] | H.J.Rack,J.I.Qazi,Titanium alloys for biomedical applications,Materials Science and Engineering C,26(8),1269(2006) |
| [2] | D.Kuroda,M.Niinomi,M.Morinaga,Y.Kato,T.Yashiro,Design and mechanical properties of new β type titanium alloys for implant materials,Materials Science and Engineering A,243(1-2),244(1998) |
| [3] | Y.L.Hao,M.Niinomi,D.Kuroda,K.Fukunaga,Y.L.Zhou,A.Suzuki,Young's modulus and mechanical Properities of Ti-29Nb-13Ta-4.6Zr in relation to α" martensite,Metallurgical and Materials Transactions A,33A,477(2002) |
| [4] | Y.L.Hao,S.J.Li,S.Y.Sun,C.Y.Zheng,Q.M.Hu,R.Yang,Super-elastic titanium alloy with unstable plastic deformation,Applied Physics Letters,87,091906(2005) |
| [5] | Y.L.Hao,S.J.Li,S.Y.Sun,C.Y.Zheng,R.Yang,Elastic deformation behaviour of Ti-24Nb-4Zr-7.9Sn for biomedical applications,Acta Biomaterialia,3(2),277(2007) |
| [6] | Y.L.Hao,S.J.Li,S.Y.Sun,R.Yang,Effect of Zr and Sn on Young's modulus and superelasticity of Ti-Nb-based alloys,Materials Science and Engineering A,441(1-2),112(2006) |
| [7] | O.M.Ivasishin,P.E.Markovsky,S.L.Semiatin,C.H.Ward,Aging response of coarse-and fine-grained β titanium alloys,Materials Science and Engineering A,405(1-2),296(2005) |
| [8] | Y.G.Li,M.H.Loretto,D.Rugg,W.Voice,Effect of heat treatment and exposure on microstructure and mechanical properties of Ti-25V-15Cr-2Al-0.2C(wt.%),Acta Materialia,49(15),3011(2001) |
| [9] | J.I.Qazi,B.Marquardt,L.F.Allard,H.J.Rack,Phase transformations in Ti-35Nb-7Zr-5Ta-(0.06-0.68) O alloys,Materials Science and Engineering C,25(3),389(2005) |
| [10] | M.Ikeda,S.Y.Komatsu,I.Sowa,M.Niinomi,Aging behavior of the Ti-20Nb-13Ta-4.6Zr new beta alloy for medical implants,Metallurgical and Materials Transactions A,33A,487(2002) |
| [11] | T.W.Duerig,G.T.Terlinde,J.C.Williams,Phase transformations and tensile properties of Ti-10V-2Fe-3Al,Metallurgical Transactions,11A,1987(1980) |
| [12] | Y.L.Hao,Niinomi M,Kuroda D,Fukunaga K,Zhou YL,Yang R,Suzuki A,Aging response of the Young's modulus and mechanical properties of Ti-29Nb-13Ta-4.6Zr for biomedical applications,Metallurgical and Materials Transactions A,34A (4),1007(2003) |
| [13] | Z.Fan,On the Young's moduli of Ti-6Al-4V alloys,Scripta Metallurigica et Materialia,29,1427(1993) |
| [14] | H.Ledbetter,S.Datta,Cast-Iron elastic constants:Effect of graphite aspect patio,Zeitschrift Fur Metallkunde,83,195(1992) |
| [15] | Z.Fan,P.Tsakiropoulos,A.P.Miodownik,Yield strength of two ductile phase alloys,Materials Science and Technology,9,863(1993) |
| [16] | Z.Fan,A.P.Miodownik,P.Tsakiropoulos,Microstructural characterization of two phases materials,Materials Science and Technology,9,1094(1993) |
| [17] | R.Boccaccini,Young's modulus of cast-iron as a function of volume content,shape and orientation of graphite inclusions,Zeitschrift Fur Metallkunde,88,23(1997) |
| [18] | L.J.Broutman,R.H.Krock,Modern Composite Materials (Addison-Wesley,Reading,MA) 1963 |
| [19] | M.Long,H.J.Rack,Titanium alloys in total joint replacement-materials science perspective,Biomaterials,19,1621(1998) |
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