东北大学
NEU Site
Xiaowei Zuo's Resume

东北大学——左小伟

Associate Prof. Xiaowei Zuo

Key Lab. of Electromagnetic Processing of Materials (Ministry of Education)

Northeastern University

No.3-11, WenHua Road, HePing District, Shenyang,

Liaoning Province, P. R. China 11004

Fax: 86-24-83681758

Tel.:86-24-83682417

Email: zuoxw@epm.neu.edu.cn

Website: https://www.researchgate.net/profile/Xiaowei_Zuo

 

Educational Background:

  • National High Magnetic Field Laboratory, Florida State University, USA, Visiting scholar (2013)

  • Northeastern University, Ph.D degree of Material Science and Engineering (2009)

  • Habilitation at Key Lab. of Electromagnetic Processing of Materials, Northeastern University (2008)

  • Northeastern University, B.S. degree of Thermal Energy and Power Engineering (2003)

  • Born in Jiyuan, Henan Province, China (1980)

Research Interests:

Electromagnetic Processing of Materials; High strength high conductivity CuAg alloys and CuFe alloys;

Peer-Reviewed Publications:

[1] X. W. Zuo, L. Qu, C. C. Zhao, B. L. An, E. G. Wang, R. M. Niu, Y. Xin, J. Lu, K. Han, Nucleation and growth of gamma-Fe precipitate in Cu-2% Fe alloy aged under high magnetic field, Journal Of Alloys And Compounds, 662 (2016) 355-360.

[2] Xiaowei Zuo, Rui Guo, Congcong Zhao, Lin Zhang, Engang Wang, Ke Han, Microstructure and properties of Cu-6wt%Ag composite thermomechanical-processed after directionally solidifying with magnetic field, Journal Of Alloys And Compounds, 676 (2016) 46-53.

[3] Xiaowei Zuo, Rui Guo, Bailing An, Lin Zhang, Engang Wang, Microstructure, hardness and electrical resistivity of directionally solidified Cu-6%Ag alloy under a transverse magnetic field, Acta Metallurgica Sinica, 52 (2016) 143-150.

[4] Congcong Zhao, Xiaowei Zuo, Engang Wang, Rongmei Niu, Ke Han, Simultaneously increasing strength and electrical conductivity in nanostructured Cu–Ag composite, Materials Science and Engineering: A, 652 (2016) 296-304.

[5] X. W. Zuo, C. C. Zhao, R. M. Niu, E. G. Wang, K. Han, Microstructural dependence of magnetoresistance in CuAg alloy solidified with high magnetic field, Journal of Materials Processing Technology, 224 (2015) 208-212.

[6] Xiaowei Zuo, Congcong Zhao, Rongmei Niu, Engang Wang, Ke Han, Microstructural dependence of magnetoresistance in CuAg alloy solidified with high magnetic field, Journal of Materials Processing Technology, 224 (2015) 208-212.

[7] Xiaowei Zuo, Ke Han, Congcong Zhao, Rongmei Niu, Engang Wang, Precipitation and dissolution of Ag in ageing hypoeutectic alloys, Journal Of Alloys And Compounds, 622 (2015) 69-72.

[8] L. Zhang, E. G. Wang, X. W. Zuo, J. C. He, Effect of Magnetic Field on Liquid-liquid Separation of Cu-Pb-La Hypermonotectic Alloy, Rare Metal Materials And Engineering, 44 (2015) 344-348.

[9] Xiaowei Zuo, Ke Han, Congcong Zhao, Rongmei Niu, Engang Wang, Microstructure and properties of nanostructured Cu28wt%Ag microcomposite deformed after solidifying under a high magnetic field, Materials Science and Engineering: A, 619 (2014) 319-327.

[10] X. W. Zuo, C. C. Zhao, E. G. Wang, L. Zhang, K. Han, J. C. He, Microstructure Evolution of the Proeutectic Cu Dendrites in Diamagnetic Cu-Ag Alloys by Electromagnetic Suppressing Convection, Journal of Low Temperature Physics, 170 (2013) 409-417.

[11] Engang Wang, Lei Qu, Xiaowei Zuo, Lin Zhang, Jicheng He, Evaluation of annealing treatment in a deformed Cu-12.8%Fe composite, Revue De Metallurgie-Cahiers D Informations Techniques, 110 (2013) 289-296.

[12] Lei Qu, Engang Wang, Ke Han, Xiaowei Zuo, Lin Zhang, Peng Jia, Jicheng He, Studies of electrical resistivity of an annealed Cu-Fe composite, Journal of Applied Physics, 113 (2013) 173708.

[13] Guimao Li, Engang Wang, Lin Zhang, Xiaowei Zuo, Jicheng He, Effect of High Magnetic Field on Solidified Structure, Drawn Structure and Electrical Conductivity of Cu-25Ag Alloys, Rare Metal Materials And Engineering, 41 (2012) 701-706.

[14] Lei Qu, Engang Wang, Xiaowei Zuo, Lin Zhang, Jicheng He, Experiment and simulation on the thermal instability of a heavily deformed Cu-Fe composite, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 528 (2011) 2532-2537.

[15] Peng Jia, Zhen-Dong Zhu, Xiao-Wei Zuo, En-Gang Wang, Ji-Cheng He, Investigations of compressive strength on Cu-Hf-Al bulk metallic glasses: Compositional dependence of malleability and Weibull statistics, Intermetallics, 19 (2011) 1902-1907.

[16] Xiaowei Zuo, Engang Wang, Lei Qu, Peng Jia, Lin Zhang, Jicheng He, Strength and Conductivity of Deformed Cu-Fe Composites after Solidified with a Horizontal Magnetic Field, Materials Science Forum, 654-656 (2010) 1377-1380.

[17] Xiaowei Zuo, Engang Wang, Huan Han, Lin Zhang, Jicheng He, Magnetic properties of Fe-49%Sn monotectic alloys solidified under a high magnetic field, Journal Of Alloys And Compounds, 492 (2010) 621-624.

[18] Engang Wang, Lei Qu, Xiaowei Zuo, Lin Zhang, Jicheng He, Thermal Stability of Fe Filaments in Deformed Cu-Fe Composites, Materials Science Forum, 654-656 (2010) 2720-2723.

[19] Guimao Li, Engang Wang, Lin Zhang, Xiaowei Zuo, Jicheng He, Effects of high magnetic field on the precipitate and property of Cu-25%Ag alloy, Acta Metallurgica Sinica, 46 (2010) 1128-1132.

[20] X. W. Zuo, E. G. Wang, H. Han, L. Zhang, J. C. He, Microstructures and magnetic properties of Fe-49%Sn monotectic alloys solidified under a high magnetic field, Acta Metallurgica Sinica, 44 (2008) 1219-1223.

[21] E. G. Wang, L. Zhang, X. W. Zuo, J. C. He, Morphology of the Cu-rich phase in Cu-Pb hypermonotectic alloys under an intense magnetic field, Steel Research International, 78 (2007) 386-390.