Effect of intermediate pass annealing on the microstructures and properties of Ti-3Al-2.5V tubes

Zhu Xiaoyong; Xing Yuan; Jiang Jian; Wang Ying; Luan Baifeng

doi:10.7513/j.issn.1004-7638.2023.03.007

Volume 44 Issue 3

Jun. 2023

Turn off MathJax

Article Contents

Article Navigation > IRON STEEL VANADIUM TITANIUM > 2023 > 44(3): 45-51

Zhu Xiaoyong, Xing Yuan, Jiang Jian, Wang Ying, Luan Baifeng. Effect of intermediate pass annealing on the microstructures and properties of Ti-3Al-2.5V tubes[J]. IRON STEEL VANADIUM TITANIUM, 2023, 44(3): 45-51. doi: 10.7513/j.issn.1004-7638.2023.03.007

Citation:

Zhu Xiaoyong, Xing Yuan, Jiang Jian, Wang Ying, Luan Baifeng. Effect of intermediate pass annealing on the microstructures and properties of Ti-3Al-2.5V tubes[J]. IRON STEEL VANADIUM TITANIUM, 2023, 44(3): 45-51. doi: 10.7513/j.issn.1004-7638.2023.03.007

Citation:

PDF( 16111 KB)

Effect of intermediate pass annealing on the microstructures and properties of Ti-3Al-2.5V tubes

doi: 10.7513/j.issn.1004-7638.2023.03.007

1.
Chongqing Key Laboratory of Light Metal Science and Technology, School of Materials Science and Engineering, Chongqing University, Chongqing 400030, China
2.
Chengdu Advanced Metal Materials Industrial Technology Research Institute Co., Ltd., Chengdu 610300, Sichuan, China

Received Date: 2022-11-12
Publish Date: 2023-06-30

Abstract

Abstract

By using EBSD and TEM techniques, the microstructures of the deformation and annealed samples were characterized. After that, the recrystallization process of the tubes during the heat treatments was examined, and the changes in the texture during the various heat treatments were analyzed using polar and inverse polar figures. The experimental results show that when the heat treatment temperature is below 580 ℃, the tube mainly recovers and the microstructure is mainly consisted of the deformed grains. The complete recrystallization process of the tube will occur only when the heat treatment is conducted at 750 ℃. The research demonstrates that the cold-rolled tubes produce a basal bimodal texture with a circumferential (TD) tilt, and that the type of basal bimodal texture produced remains constant as the heat treatment temperature rises, while the recrystallization texture <${11{\bar 2}0 }$>//AD gradually replaced the deformation texture <${10{\bar 1}0}$>//AD. The mechanical properties of the alloy tubes after annealing at 620 ～ 650 ℃ change obviously, which is ascribed to the sharp increase in the recrystallization ratio with the rise in temperature.
- Ti-3Al-2.5V alloy,
- intermediate pass annealing,
- recrystallization,
- texture

FullText(HTML)

References(20)

References

[1]	Meng Qinglan, Guan Shumin, Li Zhong. Current situation and development trend of world aviation titanium market[J]. Progress of Titanium Industry, 2011,28(2):1−3. (孟庆兰, 关淑敏, 李中. 世界航空钛市场现状及发展趋势[J]. 钛工业进展, 2011,28(2):1−3. doi: 10.3969/j.issn.1009-9964.2011.02.001 Meng Qinglan, Guan Shumin, Li Zhong. Current situation and development trend of world aviation titanium market [J]. Progress of Titanium Industry, 2011, 28 (2): 1-3. doi: 10.3969/j.issn.1009-9964.2011.02.001
[2]	Yang Lei, Hui Songxiao, Ye Wenjun, et al. Texture testing and EBSD analysis of TA18 titanium alloy pipes[J]. Rare Metals, 2011,35(6):928−933. (杨磊, 惠松骁, 叶文君, 等. TA18 钛合金管材织构的测试与EBSD分析[J]. 稀有金属, 2011,35(6):928−933. doi: 10.3969/j.issn.0258-7076.2011.06.024 Yang Lei, Hui Songxiao, Ye Wenjun, et al. Texture testing and EBSD analysis of TA18 titanium alloy pipes[J]. Rare Metals, 2011, 35 (6): 928-933. doi: 10.3969/j.issn.0258-7076.2011.06.024
[3]	Murty K L, Charit I. Texture development and anisotropic deformation of zircaloys[J]. Progress in Nuclear Energy, 2006,48:325−359. doi: 10.1016/j.pnucene.2005.09.011
[4]	齐元昊, 杨亚社, 南莉, 等. 高强Ti-3Al-2.5V合金管材的组织与性能[J]. 特种铸造及有色合金, 2011, 31(11): 1062-1065. Qi Yuanhao, Yang Yashe, Nan Li, et al. Microstructure and properties of high strength Ti-3Al-2.5V alloy pipes [J]. Special Casting and Nonferrous Alloys, 2011, 31 (11): 1062-1065.
[5]	Luo Dengchao, Nan Li, Yang Yashe, et al. Effect of annealing temperature on properties and microstructure of TA18 pipe[J]. Hot Working Process, 2012,41(20):206−208. (罗登超, 南莉, 杨亚社, 等. 退火温度对TA18管材性能和组织的影响[J]. 热加工工艺, 2012,41(20):206−208. doi: 10.14158/j.cnki.1001-3814.2012.20.061 Luo Dengchao, Nan Li, Yang Yashe, et al. Effect of annealing temperature on properties and microstructure of ta18 pipe [J]. Hot Working Process, 2012, 41 (20): 206-208. doi: 10.14158/j.cnki.1001-3814.2012.20.061
[6]	Wei Yaqiu, Ma Ding, Wu Anliang, et al. Effect of cold rolling deformation on microstructure and tensile properties of Ti-3Al-2.5V titanium alloy tube[J]. Journal of Nanchang Aeronautical University:Natural Science Edition, 2017,31(4):61−65. (魏亚秋, 马丁, 毋安良, 等. 冷轧变形量对Ti-3Al-2.5V钛合金管微观结构及拉伸性能的影响[J]. 南昌航空大学学报:自然科学版, 2017,31(4):61−65. Wei Yaqiu, Ma Din, Wu Anliang, et al. Effect of cold rolling deformation on Microstructure and tensile properties of Ti-3 Al-2.5 V titanium alloy tube [J]. Journal of Nanchang Aeronautical University: Natural Science Edition, 2017, 31(4): 61-65.
[7]	Zhou Dadi, Zeng Weidong, Xu Jianwei, et al. Microstructure and texture evolution of cold rolled titanium tubes during annealing[J]. Rare Metals, 2019,43(5):470−475. (周大地, 曾卫东, 徐建伟, 等. 冷轧钛管在退火过程中的显微组织与织构演变[J]. 稀有金属, 2019,43(5):470−475. doi: 10.13373/j.cnki.cjrm.xy18060001 Zhou Dadi, Zeng Weidong, Xu Jianwei, et al. Microstructure and texture evolution of cold rolled titanium tubes during annealing [J]. Rare Metals, 2019, 43 (05): 470-475. doi: 10.13373/j.cnki.cjrm.xy18060001
[8]	Li H, Wei D, Zhang H Q, et al. Texture evolution and controlling of high-strength titanium alloy tube in cold pilgering for properties tailoring[J]. Journal of Materials Processing Tech, 2020,279:116520. doi: 10.1016/j.jmatprotec.2019.116520
[9]	Li Z, Mei Z, Guo K, et al. Texture development of Ti-3Al-2.5V titanium alloy tubes[J]. Rare Metal Materials and Engineering, 2017,46(11):3169−3175. doi: 10.1016/S1875-5372(18)30023-7
[10]	Liao Qiang, Qu Henglei, Yang Yashe, et al. Effect of cold rolling pass deformation rate on microstructure and tensile properties of TA18 titanium alloy pipe[J]. Progress of Titanium Industry, 2012,29(1):26−28. (廖强, 曲恒磊, 杨亚社, 等. 冷轧道次变形率对TA18钛合金管材组织与拉伸性能的影响[J]. 钛工业进展, 2012,29(1):26−28. doi: 10.3969/j.issn.1009-9964.2012.01.007 Liao Qiang, Qu Henglei, Yang Yashe, et al. Effect of cold rolling pass deformation rate on Microstructure and tensile properties of ta18 titanium alloy pipe [J]. Progress of Titanium Industry, 2012, 29 (1): 26-28. doi: 10.3969/j.issn.1009-9964.2012.01.007
[11]	崔忠圻, 覃耀春. 金属学与热处理[M].北京: 机械工业出版社, 2007. Cui Zhongqi, Qin Yaochun. Metalology and heat treatment [M]: China Machine Press, 2007.
[12]	Tenckhoff E. The development of the deformation texture in zirconium during rolling in sequential passes[J]. Metallurgical Transactions A, 1978,9A:1401−1412.
[13]	Ballinger R G, Lucas G E, Pelloux R M. The effect of plastic strain on the evolution of crystallographic texture in Zircaloy-2[J]. Journal of Nuclear Materials, 1984,126:53−69. doi: 10.1016/0022-3115(84)90532-4
[14]	Inoue H, Inakazu N. Deformation and recrystallization textures in cold rolled titanium [C]//Proceedings of the Eighth International Conference on Textures of Materials. 1987: 997-1004.
[15]	Jiang Xianfeng, Xiang Shunhua, Chen Nailu. Effect of annealing process on recrystallization texture of cold rolled pure titanium strip[J]. Hot Working Process, 2011,18:167−169. (江先锋, 向顺华, 陈乃录. 退火工艺对冷轧纯钛带再结晶织构的影响[J]. 热加工工艺, 2011,18:167−169. doi: 10.3969/j.issn.1001-3814.2011.02.048 Jiang Xianfeng, Xiang Shunhua, Chen Nailu. Effect of annealing process on recrystallization texture of cold rolled pure titanium strip [J]. Hot Working Process, 2011, 18: 167-169. doi: 10.3969/j.issn.1001-3814.2011.02.048
[16]	Zhu Zhishou, Gu Jialin, Chen Nanping. Effect of cold rolling deformation on recrystallization texture formation of titanium sheet[J]. Materials Science and Technology, 1995,3(2):49−52. (朱知寿, 顾家琳, 陈南平. 冷轧形变量对钛板材再结晶织构形成的影响[J]. 材料科学与工艺, 1995,3(2):49−52. Zhu Zhishou, Gu Jialin, Chen Nanping. Effect of cold rolling deformation on recrystallization texture formation of titanium sheet [J]. Materials Science and Technology, 1995, 3 (2): 49-52.
[17]	Zhu Zhishou, Gu Jialin, Chen Nanping, et al. Study on anisotropy relationship between texture and mechanical properties of titanium[J]. Mechanical Engineering Materials, 1994,18(2):23−26. (朱知寿, 顾家琳, 陈南平, 等. 钛的织构与力学性能各向异性关系研究[J]. 机械工程材料, 1994,18(2):23−26. Zhu Zhishou, Gu Jialin, Chen Nanping, et al. Study on anisotropy relationship between texture and mechanical properties of titanium [J]. Mechanical Engineering Materials, 1994, 18 (2): 23-26.
[18]	Wagner F, Bozzolo N, Landuyt O V, et al. Evolution of recrystallisation texture and microstructure in low alloyed titanium sheets[J]. Acta Materialia, 2002,50:1245−1259. doi: 10.1016/S1359-6454(01)00427-X
[19]	Bozzolo N, Dewobroto N, Grosdidier T, et al. Texture evolution during grain growth in recrystallized commercially pure titanium[J]. Materials Science and Engineering A, 2005,397:346−355. doi: 10.1016/j.msea.2005.02.049
[20]	Tenckhoff E, Rittenhouse P L. Annealing textures in zircaloy tubing[J]. Journal of Nuclear Materials, 1970,35:14−23. doi: 10.1016/0022-3115(70)90022-X