[1]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.
[2] 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.
[3] 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. (Essential Science Indicators: ESI: Highly cited papers)
[4] 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.
[5] 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.
[6] 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.
[7] 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.
[8] 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.
[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.
