TC17钛合金线性摩擦焊接头组织及性能
Structure and mechanical property of TC17 linear friction welding joint
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摘要: 文中针对航空发动机风扇及压气机盘TC17钛合金材料,开展了接头组织分析、拉伸性能测试及硬度测试,分析了接头不同部位组织特征及形成原因.结果表明,接头明显分为母材区(BM)、热力影响区(TMAZ)和焊合区(WZ),焊接接头中部热力影响区的组织表现为等轴晶粒,而靠近焊缝边缘处热力影响区的晶粒表现为沿着受力方向被拉长,焊合区发生了动态再结晶;接头的拉伸性能与母材相当;接头热力影响区的硬度高于母材和焊合区,平均硬度为486 HV.Abstract: TC17 titanium alloy which usually used on the fan and compressor disk were selected. Microstructure and mechanical property of joint were investigated. Microstructure character of different part of joint was analyzed also. Results showed that the joints included three zones, base metal (BM), thermal mechanical affected zone (TMAZ) and weld zone(WZ). The microstructure of joint middle part was equiaxial grains, but the bottom part was the elongated grains. Dynamic recrystallation happened at the weld zone. Tensile test result showed that joint tensile strength equal to the TC17 base metal. The average hardness value of the HAZ was 486 HV which was higher than that in the BM and WZ.
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Keywords:
- titanium alloy /
- linear friction welding /
- microstructure /
- tensile strength /
- hardness
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[1] 季亚娟,刘燕冰,张田仓,等. TC4/TC17线性摩擦焊接头组织及力学性能[J].焊接学报, 2012, 33(10):109-112 Ji Yajuan, Liu Yanbing, Zhang Tiancang, et al. Structure and mechanical properties of TC4/TC17 linear friction welding joint[J]. Transactions of the China Welding Institution, 2012, 33(10):109-112 [2] 张田仓,李晶,季亚娟,等. TC4钛合金线性摩擦焊接头组织和力学性能[J].焊接学报, 2010, 31(2):53-56 Zhang Tiancang, Li Jing, Ji Yajuan, et al. Structure and mechanical properties of linear friction welding joint[J]. Transactions of the China Welding Institution, 2010, 31(2):53-56 [3] 郎波,张田仓,陶军,等. TC11与TC17异质钛合金线性摩擦焊连接机理研究[J].航空制造技术, 2012, 13:140-144 Lang Bo, Zhang Tiancang, Tao Jun, et al. Microstructure in linear friction welded dissimillar titanium alloy TC11 and TC17 joint[J]. Aeronautical Manufacturing Technology, 2012, 13:140-144 [4] 张传臣,张田仓,季亚娟,等.线性摩擦焊接头形成过程及机理[J].材料工程, 2015, 43(11):39-43 Zhang Chuanchen, Zhang Tiancang, Ji Yajuan, et al. Formation process and mechanism of linear friction welding joint[J]. Journal of Materials Engineering, 2015, 43(11):39-43 [5] 田伟,伏宇,钟燕,等.锻造工艺对TC17钛合金的显微组织和力学性能的影响[J].材料热处理学报, 2016, 37(9):57-61 Tian Wei, Fu Yu, Zhong Yan, et al. Effects of forging process on microstructure and properties of TC17 titanium alloy[J]. Transactions of Materials and Heat Treatment, 2016, 37(9):57-61 [6] 马铁军,杨思乾,张勇,等. TC4线性摩擦焊接头的力学性能及组织变化特点[J].焊接学报, 2007, 28(10):17-20 Ma Tiejun, Yang Siqian, Zhang Yong, et al. Mechanical properties and microstructure features of linear friction welded TC4 titanium alloy joint[J]. Transactions of the China Welding Institution, 2007, 28(10):17-20 [7] Mcandrew A R, Colegrove P A, Bühr C, et al. A Literature review of Ti-6Al-4V linear friction welding[J]. Progress in Materials Science, 2018, 92:225-257. [8] Anthny R M, Paul A C, Adrian C A. Modelling the influence of the process inputs on the removal of surface contaminants from Ti-5Al-4V linear friction welds[J]. Materials and Design, 2015, 66:183-195. [9] 《中国航空材料手册》编辑委员会.中国航空材料手册[M].北京:中国标准出版社, 2002. [10] Shi S X, Li W Y, Wang F F, et al. 3D numerical simulation of linear friction welding of mildsteel based on ABAQUS[C]//Proceedings 2nd International Conference on ‘The 2nd International Symposium on Computer-Aided Welding Engineering (CAWE 2012)’, Jinan, 2012:23-26. -
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