发表的主要论文: [1] Microstructure and strengthening model of Cu-Fe in-situ composites, Materials, 13 (16), 3464, 2020. [2] Microstructure and properties of Cu–Fe deformation processed in-situ composite, Vacuum, 167, 54-58, 2019. [3] Effects of C addition on the microstructures of as-cast Cu-Fe-P alloys, Materials, 12, 2772, 2019. [4] Influences on distribution of solute atoms in Cu-8Fe alloy solidification process under rotating magnetic field, Metals and Materials International, 24(6): 1275-1284, 2018. [5] Influences of alternating magnetic fields on the growth behavior and distribution of the primary Fe phase in Cu-14Fe alloys during the solidification process, Metals, 8, 571, 2018. [6] Effects of an Alternating Magnetic Field/Ag Multi-Alloying Combined Solidification Process on Cu–14Fe Alloy, Materials, 11, 2501, 2018. [7] Effect of carbon on the microstructure of a Cu-Fe alloy, Solid State Phenomena, 279: 49-54, 2018. [8] Cu-7Cr-0.1Ag microcomposites optimized for high strength and high conductivity, Journal of Materials Engineering and Performance, 27(3): 933-938, 2018. [9] Parametric study of amorphous high-entropy alloys formation two new perspectives: atomic radius modification and crystalline structure of alloying elements, Scientific Reports, 7: 39917, 2017. [10] Hardness, Electrical Conductivity and Thermal Stability of Externally Oxidized Cu-Al2O3 Composite Processed by SPD, Journal of Materials Engineering and Performance, 26(5): 2110-2117, 2017. [11] The effect of extrusion conditions on the properties and textures of AZ31B alloy, Journal of Magnesium and Alloys, 9(2): 202-209, 2017. [12] Effect of Pulse Detonation-Plasma Technology Treatment on T8 Steel Microstructures, Journal of Materials Engineering and Performance, 26(12): 6198-6206, 2017. [13] Influence of Ag micro-alloying on the thermal stability and ageing characteristics of a Cu–14Fe in-situ composite, Materials Science and Engineering A, 673: 1-7, 2016. [14] Effect of boron and cerium on corrosion resistance of Cu-Fe-P alloy, Journal of Materials Engineering and Performance, 25(3): 1062-1067, 2016. [15] Solidification of Mg-Zn-Y alloys at 6 GPa pressure: nanostructure, phases formed, and their stability, Journal of Materials Engineering and Performance, 25(9): 3830-3837, 2016. [16] Influence of high pressure during solidification on the microstructure and strength of Mg-Zn-Y alloys, Journal of Rare Earths, 34(4): 435-440, 2016. [17] Thermal stability and properties of deformation-processed Cu-Fe in situ composites, Metallurgical and Materials Transactions A, 46: 2255-2261, 2015. [18] Effect of heat treatment on the microstructure and properties of deformation-processed Cu-7Cr in situ composites, Journal of Materials Engineering and Performance, 24(11): 4340-4345, 2015. [19] Effect of alternating magnetic field on the microstructure and solute distribution of Cu-14Fe composites, Materials Transactions, 56(12): 2058-2062, 2015. [20] Effect of directional solidification rate on the microstructure and properties of deformation-processed Cu-7Cr-0.1Ag in situ composites, Journal of Alloys and Compounds, 612: 221-226, 2014. [21] Influence of a high magnetic field on the microstructure and properties of a Cu–Fe–Ag in situ composite, Materials Science and Engineering A, 584: 114-120, 2013. [22] Microstructure and properties of a deformation-processed Cu-Cr-Ag in situ composite by directional solidification, Journal of Materials Engineering and Performance, 22: 3723-3727, 2013. [23] Texture evolution in an electrodeposited nanocrystalline Ni–Fe alloy during growth-plane rolling and cross-section rolling, Scripta Materialia, 67: 483-486, 2012. [24] Microstructure refinement mechanism of Cu-7Cr in situ composites with trace Ag, Materials Science and Engineering A, 531: 141-146, 2012. [25] Influence of Ag micro-alloying on the microstructure and properties of Cu–7Cr in situ composite, Journal of Alloys and Compounds, 500: L22-25, 2010. [26] Influence of Si on glass forming ability and properties of the bulk amorphous alloy Mg60Cu30Y10, Materials Science and Engineering A, 527:7475-7479, 2010. [27] Effect of Ag micro-alloying on the microstructure and properties of Cu–14Fe in situ composite, Materials Science and Engineering A, 527: 4953-4958, 2010. |