冯艾寒
工作经历
2013.06-至今:同济大学 副教授/博导
2010.05-2013.06:哈尔滨工业大学 副教授/硕导
2008.05-2010.05:加拿大瑞尔森大学 博士后
2005.08-2008.05:中国科学院金属研究所 博士后
学习经历
2001.03-2005.07:哈尔滨工业大学 材料科学与工程学院材料学 博士
1999.09-2001.03:哈尔滨工业大学 材料科学与工程学院材料学 硕士
1993.07-1997.09:哈尔滨工业大学 材料科学与工程学院材料学 学士
主持项目
1、横向课题:“TiAl基合金等温锻造晶粒细化机理研究”,项目起止:2018.10.01-2020.10.01
2、同济大学重点科研项目培养基金:“Ti2AlNb基合金典型高温结构部件制备研究”,项目起止:2017.06-2018.12.
3、横向课题:“细晶Ti2AlNb基合金超塑性变形机理研究”,项目起止:2016.07-2018.12.
4、国家自然科学基金(青年)基金:“基于多相组织演化控制的Ti2AlNb基金属间化合物合金搅拌摩擦焊接研究”,项目编号:51305304,项目起止:2014.01-2016.12.
5、国家科技重大专项课题:“难变形材料构件组织调制及精密热成形技术”,项目编号:2013ZX04011061,项目起止:2013.01-2018.12
课程教学
1、《材料科学新进展》:本科生(英文授课)
2、《金属功能材料》:本科生
3、《材料热力学》:硕士研究生
4、《金属成形原理》:博士研究生
发表学术论文
[1] 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 Exppress 6 (2019) 056504.
[2] 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.
[3] 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 Materials 8 (4s) (2018) 567-571.
[4] 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.
[5] Z.Y. Ma*, A.H. Feng**, D.L. Chen, J. Shen. Recent advances in friction stir welding/processing of aluminum alloys: microstructural evolution and mechanical properties. Critical Reviews in Solid State and Materials Sciences. 43(4) (2018) 269-333.
[6] 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.
[7] 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. A731 (2018) 266-277.
[8] 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.
[9] 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.
[10] 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.
[11] 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.
[12] 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.
[13] 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. A692 (2017) 127-138.
[14] A.H. Feng, D.L. Chen, Z.Y. Ma, W.Y. Ma, R.J. Song. Microstructure and strain hardening of a friction stir welded high-strength Al-Zn-Mg alloy. Acta Metall. Sin (Engl. Lett.)27(4) (2014) 723-729.
[15] 沈军*,冯艾寒. Ti2AlNb基合金微观组织调制及热成形研究进展,金属学报,49(11) (2013) 1286-1294.
[16] M. Jafarzadegan, A.A. Zadeh,A.H. Feng, T. Saeid, J. Shen, H. Assadi. Microstructure and mechanical properties of a dissimilar friction stir weld between austenitic stainless steel and low carbon steel. J. Mater. Sci. Technol.29(4) (2013) 367-372.
[17] P. Lin, A.H. Feng, S.J. Yuan*, G.P. Li, J. Shen. Microstructure and texture evolution of a near-a titanium alloy during hot deformation. Mater. Sci. Eng. A563 (2013) 16-20.
[18] Q. Yang, A.H. Feng, B.L. Xiao, Z.Y. Ma*, Influence of texture on superplastic behavior of friction stir processed ZK60 magnesium alloy. Mater. Sci. Eng. A556 (2012) 671-677.
[19] M. Jafarzadegan, A.H. Feng, A.A. Zadeh, T. Saeid, J. Shen, H. Assadi. Microstructural characterization in dissimilar friction stir welding between 304 stainless steel and st37 steel. Mater. Characterization74 (2012) 28-41.
[20] X.J. Gu, C. Li, A.H. Feng, D.L. Chen. Application of flat-clad optical fiber bragg grating sensor in characterization of asymmetric fatigue deformation of extruded magnesium alloy. IEEE Sensors Journal. 11 (2011) 3042-3046.
[21] A.H. Feng, D.L. Chen*, Z.Y. Ma. Microstructure and cyclic deformation behavior of a friction-stir-welded 7075 Al alloy. Metall. Mater. Trans. A. 41A (2010) 957-971.
[22] A.H. Feng, D.L. Chen*, Z.Y. Ma. Microstructure and low-cycle fatigue of a friction-stir-welded 6061 aluminum alloy. Metall. Mater. Trans. A. 41A (2010) 2626-2641.
[23] A.H. Feng, D.L. Chen, C. Li, X.J. Gu. Flat-cladding fiber bragg grating sensors for large strain amplitude fatigue tests. Sensors10 (2010) 7674-7680.
[24] C. Li,A.H. Feng, X.J. Gu, D.L. Chen. Localized cyclic strain measurements of friction stir welded aluminum alloy using a flat-clad optical fiber sensor array. IEEE Sensors Journal10 (2010) 888-892.
[25] A.H. Feng, Z.Y. Ma*. Microstructure evolution of cast Mg-Al-Zn during friction stir processing and subsequent aging. Acta Materialia57 (2009) 4248-4260.
[26] A.H. Feng, B.L. Xiao, Z.Y. Ma*, R.S. Chen. Effect of friction stir processing procedures on microstructure and mechanical properties of Mg-Al-Zn casting. Metall. Mater. Trans. A. 40A (2009) 2447-2456.
[27] D.R. Ni, D. Wang, A.H. Feng, G. Yao, Z.Y. Ma*. Enhanced the high-cycle-fatigue strength of Mg-9Al-1Zn casting by friction stir processing. Scripta Mater.61 (2009) 568-571.
[28] A.H. Feng, B.L. Xiao, Z.Y. Ma*. Effect of microstructural evolution on mechanical properties of friction stir welded AA2009/SiCp composite. Compos. Sci. Technol.68 (2008) 2141-2148.
[29] A.H. Feng, B.L. Xiao, Z.Y. Ma*. Grain boundary misorientation and texture development in friction stir welded SiCp/Al-Cu-Mg composite. Mater. Sci. Eng. A497 (2008) 515-518.
[30] A.H. Feng, Z.Y. Ma*. Enhanced mechanical properties of Mg-Al-Zn cast alloy via friction stir processing. Scripta Mater.56 (2007) 397-400.
[31] A.H. Feng, Z.Y. Ma*. Formation of Cu2FeAl7phase in friction-stir-welded SiCp/Al-Cu-Mg composite. Scripta Mater.57 (2007) 1113-1116.
[32] 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 (2007) 951-954