论文及专著
[1] L. Lu, X.H. Chen, X. Huang, K. Lu. Revealing the maximum strength in nanotwinned copper. Science. 2009, 323: 607-610.(SCI, IF:~30)
[2] L. Lu, Y.F. Shen, X.H. Chen, L.H. Qian, K. Lu. Ultrahigh strength and high electrical conductivity in copper. Science. 2004, 304: 422-426.(SCI, IF:~30)
[3] X.H. Chen, L. Lu. Work hardening of ultrafine-grained copper with nanoscale twins. Scripta Materialia. 2007, 57: 133-136.(SCI)
[4] X.H. Chen, L. Lu, K. Lu. Electrical resistivity of ultrafine-grained copper with nanoscale growth twins. Journal of Applied Physics. 2007, 102: 083708.(SCI)
[5] X.H. Chen, J. Lu, L. Lu, K. Lu. Tensile properties of a nanocrystalline 316L austenitic stainless steel. Scripta Materialia. 2005, 52: 1039-1044.(SCI)
[6] X.H. Chen, L. Lu, K. Lu. Grain size dependence of tensile properties in ultrafine-grained Cu with nanoscale twins. Scripta Materialia. 2011, 64: 311-314.(SCI)
[7] X.H. Chen*, F.S. Pan, J.J. Mao, J.S. Huang.Effect of impurity reduction on rollability of AZ31 magnesium alloy. Journal of Materials Science. 2012, 47: 514-520. (SCI)
[8] X.H. Chen*, F.S. Pan, J.J. Mao, J.F. Wang, D.F. Zhang, A.T. Tang, J. Peng. Effect of heat treatment on strain hardening of ZK60 magnesium alloy. Materials and Design. 2011, 32(3):1526-1530. (SCI)
[9] X.H. Chen*, J.J. Mao, F.S. Pan, J. Peng, J.F. Wang.Influence of impurities on damping properties of ZK60 magnesium alloy. Transactions of Nonferrous Metals Society of China. 2010, 20: 1305-1310. (SCI)
[10] X.H. Chen*, X.W. Huang, F.S. Pan, A.T. Tang, D.F. Zhang, J.F. Wang. Effects of heat treatment on microstructure and mechanical properties of ZK60 Mg alloy. Transactions of Nonferrous Metals Society of China. 2011,21(4): 754-760. (SCI)
[11] X.H. Chen*, J.J. Mao. Thermal stability and tensile properties of electrodeposited Cu-Bi alloy. Journal of Materials Engineering and Performance. 2011,20(3):481-486. (SCI)
[12] X.H. Chen*, F.S. Pan, J.J. Mao, Z.S. Zhang. Improved mechanical properties in AZ31 magensium alloys induced by impurity reduction. Journal of Wuhan University of Technology-Mater. Sci. Ed., 2013, 28: 1207-1211, (SCI)
[13] X.H. Chen*, J. Liu, Z.H. Zhang, F.S. Pan. Effect of heat treatment on electromagnetic shielding effectiveness of ZK60 magnesium alloy. Materials and Design, 2012, 42: 327-333. (SCI)
[14] X.H. Chen*, J. Liu, F.S. Pan. Enhance electromagnetic interference shielding in ZK60 magnesium alloy. Journal of Physics and Chemistry of Solids, 2013,74: 872-878. (SCI)
[15] X.H. Chen* , L.Z. Liu, J. Liu, F.S. Pan Microstructure, electromagnetic shielding effectiveness and mechanical properties of Mg–Zn–Y–Zr alloys, Materials & Design, Vol. 65(2015), pp.360-369. (SCI)
[16] L.Z. Liu, X.H. Chen*, F.S. Pan et al. Effect of Y and Ce additionson microstructure and mechanical properties of Mg-Zn-Zr alloys, Materials Science and Engineering A, 2015, 644: 247-253. (SCI)
[17] X.H. Chen*, L.Z. Liu, F.S. Pan. Mechanical properties and electromagnetic shielding effectiveness of ZK60 magnesium alloy subjected to cold rolling and aging, Materials Research Innovations, Vol. 18 S4(2014), pp187-192. (SCI)
[18] X.H. Chen*, L.Z. Liu, J. Liu, F.S. Pan. Enhanced electromagnetic interference shielding of Mg-Zn-Zr alloy by Ce addition, Acta Metallurgica Sinica (English Letters), 28 (2015) 492-498. (SCI)
[19] Xianhua Chen*, Lizi Liu, Fusheng Pan et. al, Microstructure, electromagnetic shielding effectiveness and mechanical properties of Mg-Zn-Cu-Zr alloys [J]. Materials Science & Engineering B, 197(2015)67-74. (SCI)
[20] Bo Wang, Xianhua Chen*, Fusheng Pan et al, Effects of cold rolling and heat treatment on microstructure and mechanical properties of AA5052 aluminum alloy. Transactions of Nonferrous Metals Society of China. 2015. (SCI)
[21] X.H. Chen*, L.Z. Liu, J. Liu, F.S. Pan. Improved strength in ZK60 magnesium alloy induced by pre-deformation and heat treatment, Journal of Wuhan University of Technology-Mater. Sci. Ed., 2015. (SCI)
[22] X.H. Chen* , Y.X. Geng, F.S. Pan. Microstructure, mechanical properties and electromagnetic shielding effectiveness of Mg-Y-Zr-Nd alloy, Rare Metal Materials and Engineering, 2015. (SCI)
[23] Xianhua Chen*, Yuxiao Geng, Fusheng Pan. Research Progress in Magnesium Alloys as Functional Materials. Rare Metal Materials and Engineering, 2015. (SCI)
[24] Kai Song, Fusheng Pan, Xianhua Chen et al. Effect of texture on the electromagnetic shielding property of magnesium alloy. Materials Letters, 2015, 157: 73-76. (SCI)
[25] Kai Song, Fusheng Pan, Xianhua Chen et al. Effect of Zn content on electromagnetic interference shielding effectiveness of Mg-Zn alloys. Materials Research Innovations, Vol. 18 S4(2014), pp193-197. (SCI)
[26] 陈先华*. 孪晶对材料的力学和电学性能影响的研究进展. 材料工程,2011,9:87-91. (EI)
[27] 陈先华*,王敬丰,汤爱涛,潘复生. 杂质元素对镁合金组织与性能的影响及其对应措施. 材料导报,2010,24(2):37-41. (CSCD)
[28] F.S. Pan, J.J. Mao, X.H. Chen, J. Peng, J.F. Wang. Influence of impurities on microstructure and mechanical properties of ZK60 magnesium alloy. Transactions of Nonferrous Metals Society of China. 2010,20:1299-1304. (SCI)
[29] X. Zhang, H. Wang, X.H. Chen, L. Lu, K. Lu, R.G. Loagland, A. Misra. High-strength sputter-deposited Cu foils with preferred orientation of nanoscale growth twins. Applied Physics Letters. 2006, 88: 173116. (SCI)
[30] K. Song, F.S. Pan, X.H. Chen et al. Texture effect on the electromagnetic shielding property of magnesium alloy. Materials Letters, 2015, 157: 73-76 (SCI)