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[1] Yan J C, Xu H W, Zuo X W, Jia T, Wang E G. Strategies for strengthening-ductility and hierarchical co-precipitation in multicomponent nano-precipitated steels by Cu partitioning[J]. Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2019, 739: 225-234. 【SCI, JCR 1区】
[2] Huang D, Yan J, Zuo X. Co-precipitation kinetics, microstructural evolution and interfacial segregation in multicomponent nano-precipitated steels. Materials Characterization, 2019, 155: 109786. 【SCI, JCR 1区】
[3] Li R, Zuo X W, Wang E G. Influence of thermomechanical process and Fe addition on microstructural evolution and properties of Cu-26 wt%Ag composite[J]. Journal of Alloys and Compounds, 2019, 773: 121-130. 【SCI, JCR 1区】
[4] 李蕊, 左小伟, 王恩刚. 时效Ag-7wt%Cu合金的微观组织、电阻率和硬度[J]. 物理学报, 2017, 66: 027401. 【SCI, JCR 4区】
[5] Zuo X W, Zhu J Z, An B L, Han K, Li R, Wang E G. Influence of Fe addition on microstructure and properties of Cu-Ag composite[J]. Metals and Materials International, 2017, 23: 974-983. 【SCI, JCR 1区】
[6] Zuo X W, Zhang L, Wang E G. Influence of External Static Magnetic Fields on Properties of Metallic Functional Materials[J]. Crystals, 2017, 7: 10. 【SCI, JCR 2区】
[7] Zhao C C, Zuo X W, Wang E G, Han K. Strength of Cu-28 wt%Ag Composite Solidified Under High Magnetic Field Followed by Cold Drawing[J]. Metals and Materials International, 2017, 23: 369-377. 【SCI, JCR 1区】
[8] Zhao C C, Wang E G, Zuo X W. Effect of Composition, High Magnetic Field and Solidification Parameters on Eutectic Morphology in Cu-Ag Alloys[J]. High Temperature Materials and Processes, 2017, 36: 373-379. 【SCI, JCR 4区】
[9] Li R, Wang E G, Zuo X W. Co-Precipitation, Strength and Electrical Resistivity of Cu-26 wt % Ag-0.1 wt % Fe Alloy[J]. Materials, 2017, 10: 17. 【SCI, JCR 2区】
[10] 左小伟, 郭睿, 安佰灵, 张林, 王恩刚. 横向磁场下定向凝固Cu-6%Ag合金的组织、硬度和电阻率[J]. 金属学报, 2016, 52: 143-150. 【SCI, JCR 3区】
[11] 左小伟, 安佰灵, 黄德洋, 张林, 王恩刚. 强磁场作用下Cu熔体中富Fe颗粒的迁移与排列[J]. 物理学报, 2016, 65: 137401. 【SCI, JCR 4区】
[12] Zuo X W, Zhao C C, Zhang L, Wang E G. Influence of Growth Rate and Magnetic Field on Microstructure and Properties of Directionally Solidified Ag-Cu Eutectic Alloy[J]. Materials, 2016, 9: 9. 【SCI, JCR 2区】
[13] Zuo X W, Qu L, Zhao C C, An B L, Wang E G, Niu R M, Xin Y, Lu J, Han K. Nucleation and growth of gamma-Fe precipitate in Cu-2% Fe alloy aged under high magnetic field[J]. Journal of Alloys and Compounds, 2016, 662: 355-360. 【SCI, JCR 1区】
[14] Zuo X W, Guo R, Zhao C C, Zhang L, Wang E G, Han K. Microstructure and properties of Cu-6wt% Ag composite thermomechanical-processed after directionally solidifying with magnetic field[J]. Journal of Alloys and Compounds, 2016, 676: 46-53. 【SCI, JCR 1区】
[15] Zhao C C, Zuo X W, Wang E G, Niu R M, Han K. Simultaneously increasing strength and electrical conductivity in nanostructured Cu-Ag composite[J]. Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2016, 652: 296-304. 【SCI, JCR 1区】
[16] Zuo X W, Zhao C C, Niu R M, Wang E G, Han K. Microstructural dependence of magnetoresistance in CuAg alloy solidified with high magnetic field[J]. Journal of Materials Processing Technology, 2015, 224: 208-212. 【SCI, JCR 1区】
[17] Zuo X W, Han K, Zhao C C, Niu R M, Wang E G. Precipitation and dissolution of Ag in ageing hypoeutectic alloys[J]. Journal of Alloys and Compounds, 2015, 622: 69-72. 【SCI, JCR 1区】
[18] Zuo X W, Han K, Zhao C C, Niu R M, Wang E G. Microstructure and properties of nanostructured Cu28 wt%Ag microcomposite deformed after solidifying under a high magnetic field[J]. Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2014, 619: 319-327. 【SCI, JCR 1区】
[19] Zuo X W, Zhao C C, Wang E G, Zhang L, Han K, He J C. Microstructure Evolution of the Proeutectic Cu Dendrites in Diamagnetic Cu-Ag Alloys by Electromagnetic Suppressing Convection[J]. Journal of Low Temperature Physics, 2013, 170: 409-417. 【SCI, JCR 4区】
[20] Qu L, Wang E G, Han K, Zuo X W, Zhang L, Jia P, He J C. Studies of electrical resistivity of an annealed Cu-Fe composite[J]. Journal of Applied Physics, 2013, 113: 5. 【SCI, JCR 2区】
[21] Qu L, Wang E G, Zuo X W, Zhang L, He J C. Experiment and simulation on the thermal instability of a heavily deformed Cu-Fe composite[J]. Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2011, 528: 2532-2537. 【SCI, JCR 1区】
[22] Zuo X W, Wang E G, Han H, Zhang L, He J C. Magnetic properties of Fe-49%Sn monotectic alloys solidified under a high magnetic field[J]. Journal of Alloys and Compounds, 2010, 492: 621-624. 【SCI, JCR 1区】
[23] 左小伟, 王恩刚, 韩欢, 张林, 赫冀成. 强磁场下 Fe-49%Sn偏晶合金凝固组织及磁性能[J]. 金属学报, 2008, 44: 1219-1223. 【SCI, JCR 3区】