Welcome to collaborative innovation center of steel technology !
Chinese
Modern Transportation Steel Research Team

Team Introduction

    Di Tang    The professor of Collaborative Innovation Center of Steel Technology

Di Tang, the professor of Collaborative Innovation Center of Steel Technology, received his Bachelor's degree from Beijing Institute of Iron and Steel Technology in 1982, received his Master's degree from University of Science and Technology Beijing in

Di Tang, the professor of Collaborative Innovation Center of Steel Technology, received his Bachelor's degree from Beijing Institute of Iron and Steel Technology in 1982, received his Master's degree from University of Science and Technology Beijing in 1988, and received his Ph.D. from University of Science and Technology Beijing in 2001. His recent research interest is the modern transportation steel.

Research Projects

1.      The National Key Technology R&D Program, High Performance Super High Strength Automotive Steel, (No. 2017YFB0304400) , 2017 -2021

Publications     

1.      Tang Di, Wu Huibin. High Quality Hot Rolled Plate and Strip Theory and Material Development[M]. Metallurgical Industry Press, 2016

2.      Tang Di, Zhao Zhengzhi, Mi Zhenli, Liu Qiang. Advanced High Strength Strip Steel for Automobile[M]. Metallurgical Industry Press, 2016

3.      Gang Niu, Qibo Tang, Huibin Wu, Na Gong, Yanjun Yin, Di Tang, Achieving high strength and high ductility of austenitic steel by cold rolling and reverse annealing. Materialia, 2019. 6: p. 100264.

4.      Mei Xu, Hui Li, Rui-ting Jiang, Di Tang, Hai-tao Jiang, Zhen-li Mi, Deformation behavior and microstructural evolution in ultra-high-strength dual-phase (UHS-DP1000) steel with different strain rates. Journal of Iron and Steel Research International, 2019. 26(2): p. 173-181.

5.      Gang Niu, Huibin Wua, Da Zhang, Na Gong, Di Tang, Heterogeneous nano/ultrafine-grained medium Mn austenitic stainless steel with high strength and ductility. Materials Science and Engineering: A, 2018. 725: p. 187-195. Niu, G., et al., Heterogeneous nano/ultrafine-grained medium Mn austenitic stainless steel with high strength and ductility. Materials Science and Engineering: A, 2018. 725: p. 187-195.

6.      Juhua Liang, Zhengzhi Zhao, Di Tang, Nan Ye, Shufeng Yang, Weining Liu, Improved microstructural homogeneity and mechanical property of medium manganese steel with Mn segregation banding by alternating lath matrix. Materials Science and Engineering: A, 2018. 711: p. 175-181.

7.      Z.Z. Zhao, J.H. Liang, A.M. Zhao, J.T. Liang, D. Tang, Y.P. Gao, Effects of the austenitizing temperature on the mechanical properties of cold-rolled medium-Mn steel system. Journal of Alloys and Compounds, 2017. 691: p. 51-59.

8.      Hui-bin Wu, Gang Niu, Feng-juan Wu, and Di Tang, Reverse-transformation austenite structure control with micro/nanometer size. International Journal of Minerals, Metallurgy, and Materials, 2017. 24(5): p. 530-537.




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