以Ti40合金为基础,配制4种不同V和Cr含量的合金,测试其在锻造、热处理、热暴露和蠕变条件下的相关力学性能,并观察其组织.结果表明:合金元素V和Cr对Ti40合金室温力学性能、蠕变行为和组织的影响具有相似性,即随V和Cr含量的降低,合金室温综合力学性能变化不明显、抗蠕变能力减弱、组织粗化;这与V和Cr同属于β稳定元素、且原子半径都小于Ti原了仃关;而C和Cr对于热稳定性能的影响则完全相反,V含量的增加或Cr含量的降低合金热稳定性能优化,其主要原因可能与V属于同晶型β稳定元素而Cr属于共析型β稳定元素有关.
参考文献
| [1] | ZHAO Y Q;ZHOU L .Mechanism of burn resistant titaniumalloy Ti-40[J].Journal of Materials Science and Technology,2001,17(06):677-682. |
| [2] | ZHAO Y Q;ZHOU L;DENG J .The role of interface in the burning of titanium alloys[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,1999,267:167-171. |
| [3] | ZHAO Y Q;ZHOU L .High temperature deformation mechanism and constitutive equation of Ti40 alloy[J].Acta Metallurgica Sinica,2001,13(01):406-411. |
| [4] | 赵永庆 .Ti40阻燃钛合金的变形机理和阻燃机理研究[D].东北大学,1998. |
| [5] | Zhao YQ.;Qu HL.;Zhu KY.;Wu H.;Zhou L. .The second phases in a burn resistant stable beta titanium alloy-Ti40[J].Journal of Materials Science,2003(7):1579-1584. |
| [6] | ZHAO Y Q;QU H L;ZHU K Y;WU H,LIU C L,ZHOU U .The second phase in Ti40 bum resistant alloy after high temperature exposure for a long time[J].Journal of Alloys and Compounds,2002,333:165-169. |
| [7] | Zhu KY.;Zhao YQ.;Qu HL.;Wu H. .Thermal stability of Ti-V-Cr burn-resistant alloys[J].Journal of Materials Science,2004(7):2387-2394. |
| [8] | ZHAO Y Q;QU H L;ZHU K Y;WU H .Oxidation behavior of a burn resistant highly stabilized β titanium alloy[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2001,316:211-216. |
| [9] | WORD C H;SPANOS G;BRODERICK T F;RESHAD J.Isothermal transformation of precipitates in Alloy C+[A].UK:The Institute of Materials,1995:2377-2379. |
| [10] | BRODERICK T F;RESHAD J;WARD C H;SCHELTENS F J.Solvus temperature of various phase in Alloy C+[A].UK:The Institute of Materials,1995:2377-2379. |
| [11] | 辛社伟,赵永庆,曾卫东,吴欢,杨海瑛,李倩.550℃热暴露对Ti40阻燃钛合金力学性能的影响[J].金属热处理,2007(09):55-58. |
| [12] | XIN S W;ZHAO Y Q;ZENG W D;WU H .Research on thermal stability of Ti40 alloy at 550℃[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2008,477:372-378. |
| [13] | HAYES R W;V1SWANATHAN G B;MILLS M J .Creepbehavior of Ti-6Al-2Sn-4Zr-2Mo (Ⅰ):The effect of nickel oncreep deformation and microstructure[J].Acta Materialia,2002,50:4953-4963. |
| [14] | 刘伟东,刘志林,屈华,刘艳.高合金化β钛合金拉伸延性的价电子理论分析[J].金属学报,2002(10):1037-1041. |
| [15] | MORINAGA M;YUKAWA N;MAYA T;SONE K,ADACHI H.Theoretical design of β-type titanium alIoys[A].France:Société Francalse de Métailurgie,1988:217-224. |
| [16] | 张济山;崔华;胡壮麒 .d电子合金理论及其在合金设计中的应用[J].材料科学与工程,1993,11(03):1-10. |
| [17] | M.koppers;Chr.Herzig;M.Friesel .Intrinsic self-diffusion and substiutional al diffusion in α-Ti[J].Acta materialia,1997(10):4181-4191. |
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