首页|系概况|科研工作|师资队伍|教学工作|新闻中心|返回学院|同济首页

副教授

 

曲寿江

职称:副教授/博导

电子邮箱:qushoujiang@tongji.edu.cn

办公地点:材料学院452

电话:18621570321

课题组主页:http://titanium.tongji.edu.cn

 

 

研究方向:

1、  TiAlTi2AlNb基合金熔炼、等温锻造、轧制过程中的微观组织演变机理(再结晶/相变、位错变形机理)与力学性能表征(拉伸/超塑性、原位拉伸/压缩、疲劳性能等)

2、  同步辐射、中子衍射、三维原子探针、第一性原理等技术在Ti2AlNbTiAl基合金、钛合金等材料相变过程中的应用。

3、  增材制造钛基合金、Ti2AlNbTiAl基合金工艺优化、微观组织与力学性能表征

4、  铝基复合材料制备、微观组织和力学性能评价

 

工作经历:

  2013.06-至今:同济大学 材料学院 副教授/博导

  2008.12-2013.06:哈尔滨工业大学 材料学院  副教授/硕导

  2005.07-2008.12:哈尔滨工业大学 材料学院  讲师

  2004.01-2007.11:哈尔滨工业大学力学博士后流动站  博士后

 

学习经历:

  1997.09-2003.12:哈尔滨工业大学  材料学院 材料学  硕博连读

  1993.09-1997.07:哈尔滨工业大学  材料学院 材料学  学士

 

主持项目:

1、   国家自然科学基金(面上)基金:“TiAl基合金在动态气氛下的高温氧化机理研究”,项目编号:51871168,项目起止:2019.01-2022.12.

2、   领域基金与基础预研项目,项目起止:2019.09-2023.12.

3、   横向课题:“轻质高强Ti2AlNb基合金应用研究”,项目起止:2019.08-2020.08.

4、   同济大学重点科研项目培养基金:“航空航天领域典型高温结构部件制备研究”,项目起止:2015.06-2016.12.

 

授课情况:

  《金属成形原理》:博士研究生

  《材料科学基础》:本科生专业基础课

  《化学与工程材料学》:本科生专业基础课

 

代表性论文与著作:

[1]     X.R. Guan, Q. Chen, S.J. Qu*, G.J. Cao, H. Wang*, A.H. Feng, D.L. Chen*. Adiabatic shear instability in a titanium alloy: Extreme deformation-induced phase transformation, nanotwinning and grain refinement. J. Mater. Sci. Technol. 150 (2023) 104-113.

[2]     Z.J. Yu, Z. Chen, D.D. Qu, S.J. Qu, H. Wang*, F. Zhao, C.Q. Zhang, A.H. Feng, D.L. Chen*. Microstructure and electrochemical behavior of a 3D-printed Ti-6Al-4V alloy. Materials. 15 (2022) 4473.

[3]     C. Li, J.L. Sun, A.H. Feng*, H. Wang, X.Y. Zhang, C.Q. Zhang, F. Zhao, G.J. Cao, S.J. Qu, D.L. Chen*. Active slip mode analysis of an additively manufactured Ti-6Al-4V alloy via in-grain misorientation axis distribution. Metals. 12 (2022) 532.

[4]     J. Chen, Q. Chen, S.J. Qu*, H.P. Xiang, C. Wang, J.B. Gao, A.H. Feng, D.L. Chen*. Oxidation mechanisms of an intermetallic alloy at high temperatures. Scripta Materialia. 199 (2021) 113852.

[5]     Y.L. Zhang, Z. Chen, S.J. Qu*, A.H. Feng, G.B. Mi, J. Shen, X. Huang, D.L. Chen*. Multiple a sub-variants and anisotropic mechanical properties of an additively-manufactured Ti-6Al-4V alloy, J. Mater. Sci. Technol. 70 (2021) 113-124.

[6]     Y.L. Zhang, Z. Chen, S.J. Qu*, A.H. Feng, G.B. Mi, J. Shen, X. Huang, D.L. Chen*. Cyclic deformation behavior of a 3D-printed Ti-6Al-4V alloy. J. Alloys Compd. 825 (2020) 153971.

[7]     Y.L. Zhang, A.H. Feng*, S.J. Qu, J. Shen, D.L. Chen*. Microstructure and low cycle fatigue of a Ti2AlNb-based lightweight alloy. J. Mater. Sci. Technol. 44, (2020) 140-147.

[8]     Z.G. Zhang, S.J. Qu*, G.R. Cui*, A.H. Feng, J. Shen, D.L. Chen*. A new mechanism of dynamic phase transformations in an isothermal forged beta-gamma intermetallic alloy. Materials. 12 (2019) 2787.

[9]     G.D. Wu, G.R. Cui, S.J. Qu*, A.H. Feng, G.J. Cao, B.H. Ge, H.P. Xiang, J. Shen, D.L. Chen*. High-temperature oxidation mechanisms of nano-/submicro-scale lamellar structures in an intermetallic alloy. Scripta Materialia. 171 (2019) 102-107.

[10]  C.K. Yan, G.R. Cui*, S.J. Qu, A.H. Feng, J. Shen, D.L. Chen. Static recrystallization of pure titanium after cryo-deformation. Journal of Physics: Conference Series. IOP pubishing, 1270 (2019) 012040.

[11]  K. Zhu, S.J. Qu, A.H. Feng*, J.L. Sun, J. Shen. Microstructural evolution and refinement mechanism of a beta-gamma TiAl-based alloy during multidirectional isothermal forging. Materials. 12 (2019) 2496.

[12]  Y.J. Wu, A.H. Feng*, S.J. Qu, X. Hu, J. Shen. Macro-microscopic field evolution of Ti6Al4V alloy during isothermal upsetting based on deform platform. Materials Research Express. 6 (2019) 056505.

[13]  Z.X. Zhang, S.J. Qu*, A.H. Feng, X. Hu, J. Shen. Microstructural mechanisms during multidirectional isothermal forging of as-cast Ti-6Al-4V alloy with an initial lamellar microstructure. J. Alloys Compd. 713 (2019) 277-287.

[14]  朱凯,冯艾寒,曲寿江,沈军,铸态Ti-44Al-4Nb-(Mo,Cr,B)合金的热变形行为及热加工图,有色金属工程9(9) (2019) 34-39.

[15]  闫辰侃,曲寿江,冯艾寒,沈军,钛及钛合金形变孪晶的研究进展,稀有金属,43(5) (2019) 449-460. (Cover page of the journal issue)

[16]  S.J. Qu, A.H. Feng*, M.R. Shagiev, H. Xie, B.B. Li, J. Shen. Superplastic behavior of the fine-grained Ti-21Al-18Nb-1Mo-2V-0.3Si intermetallic alloy. Letters on Materilals. 8 (4s), (2018) 567-571.

[17]  J.M. Xiang, G.B. Mi, S.J. Qu*, X. Huang, Z. Chen, A.H. Feng, J. Shen, D.L. Chen**. Thermodynamic and microstructural study of Ti2AlNb oxides at 800oC. Scientific Reports. 8 (2018) 1276.

[18]  K. Zhu, S.J. Qu, A.H. Feng, J.L. Sun, J. Shen*. Evolution of the microstructure and lamellar orientation of a beta-solidifying gamma-TiAl-based alloy during hot compression. Metals. 8 (2018) 445.

[19]  C.K. Yan, A.H. Feng*, S.J. Qu, J.L. Sun, J. Shen. Hot deformation and grain refinement mechanisms of commercially pure titanium processed via three-directional cryo-compression. Mater. Sci. Eng. A 731 (2018) 266-277.

[20]  C.K. Yan, A.H. Feng*, S.J. Qu, G.J. Cao, J.L. Sun, J. Shen, D.L. Chen**. Dynamic recrystallization of titanium: Effect of pre-activated twinning at cryogenic temperature. Acta Mater. 154 (2018) 311-324.

[21]  Z.X. Zhang, S.J. Qu, A.H. Feng, X. Hu, J. Shen*. The low strain rate response of as-cast Ti-6Al-4V alloy with an initial coarse lamellar structure. Metals. 8 (2018) 270-1-13.

[22]  S.J. Qu*, S.Q. Tang, A.H. Feng, C. Feng, J. Shen, D.L. Chen**. Microstructural evolution and high-temperature oxidation mechanisms of a titanium aluminide based alloy. Acta Mater. 148 (2018) 300-310.

[23]  S.Q. Tang, S.J. Qu, A.H. Feng, C. Feng, J. Shen*, D.L. Chen**. Core-multishell globular oxidation in a new TiAlNbCr alloy at high temperatures. Scientific Reports. 7 (2017) 3483.

[24]  Z.X. Zhang, S.J. Qu*, A.H. Feng, J. Shen, D.L. Chen*. Hot deformation behavior of Ti-6Al-4V alloy: Effect of initial microstructure. J. Alloys Compd.. 718 (2017) 170-181.

[25]  Z.X. Zhang, S.J. Qu*, A.H. Feng, J. Shen. Achieving grain refinement and enhanced mechanical properties in Ti-6Al-4V alloy produced by multidirectional isothermal forging. Mater. Sci. Eng. A 692 (2017) 127-138.

[26]  陶国强,祁广源,曲寿江*,沈军,多向等温锻造Ti-44Al-4Nb-1.5Cr-0.5Mo-0.1B-0.1Y合金高温压缩变形行为研究,钛工业进展35(3) (2018) 11-15.

[27]  张胜雷,陈卓,曲寿江*,冯艾寒,陆煦,沈军,陈道伦,热处理对电子束选区熔化制备的Ti-6Al-4V合金组织与力学性能的影响,热加工工艺47(10) (2018) 226-231.

[28]  汤守巧,曲寿江*,冯艾寒,冯聪,崔扣彪,沈军,TiAl基合金高温抗氧化研究进展,稀有金属41(1) (2017) 81-93.

[29]  程祥霞,曲寿江*,冯艾寒,沈军,钛铝金属间化合物晶团与片层尺寸效应研究进展,稀有金属40(4) (2016) 393-402.

[30]  朱慧萍,曲寿江*,祁广源,沈军,Ti2AlNb基合金轧板高温抗氧化性能研究,稀有金属40(2) (2016) 104-109.

[31]  S. J. Qu, A. H. Feng, L. Geng, Z. Y. Ma, J. C. Han. DSC analysis of liquid volume fraction and compressive behavior of the semi-solid Si3N4w/Al-Si composite. Scripta Mater.. 56 (11) (2007) 951-954.

[32]  S.J. Qu, L. Geng, J.C. Han, SiCp/Al composites fabricated by modified squeeze casting technique, J. Mater. Sci. Technol. 23(5) (2007) 641-644

[33]  S.J. Qu, J.C. Han, S.H. Meng. Compressive deformation behavior of the ferritic oxide dispersion strengthened alloys at elevated temperatures, Asian Pacific Conference on Fracture and Strength ’06, Sanya, Hainan Island, China, 2006.11

[34]  S. Chen, S.J. Qu, J. Liang, J.C. Han. Sintering and microstructure evolution of columnar nickel-based superalloy sheets prepared by EB-PVD. J. Alloys Compd., 507(1) (2009) 146-150

技术支持:维程互联