[1] Q. Zhou, Z.W. Liu*, X.C. Zhong, G.Q. Zhang, Properties improvement and structural optimization of sintered NdFeB magnets by non-rare earth compound grain boundary diffusion, Materials and Design, 86 (2015) 114-120
[2] J. Wang, Z.W. Liu, Z.G. Zheng, H.Y. Yu, G.P. Tang, D.C. Zeng, Effect of rare earth additions on microstructure, thermal stability and crystallization behavior of melt spun Fe80.65Cu1.35Si2B14RE2 (RE= Y, Gd, TB and DY) soft magnetic alloys, Materials Letters, 159 (2015) 76-79
[3] X.X. Deng, L.Z. Zhao, H.Y. Yu, Z.W. Liu*, and Z.Y. Xiao, Preparation of isotropic and anisotropic nanocrystalline NdFeB magnets by high-velocity compaction and hot deformation, IEEE Trans. Magn, 51 (11) (2015), 2104804
[4] Y. Hong, L.Z. Zhao, G. Wang, Z.W. Liu, D.C. Zeng, Micromagnetic Simulation of Magnetization Reversal Process Using Magnetic Force Microscope Image, IEEE Transactions on Magnetics, 51 (11) (2015) 7100304
[5] Z.W. Liu*, L.Z. Zhao, S.L. Hu, H.Y. Yu, X.C. Zhong, and X.X. Gao, Coercivity and thermal stability enhancement for spark plasma sintered nanocrystalline Nd-Fe-B magnets with Dy2O3 and Zn additions, IEEE Transactions on Magnetics, 51(11) (2015), 2101204
[6] Z.W. Liu*, K.P. Su, Y.T. Cheng, R.V. Ramanujan, Structure and properties evolutions for hard magnetic MnAl and MnGa based alloys prepared by melt spinning or mechanical milling, Material Science and Engineering with Advanced Research, 1(1) (2015) 12-19
[7] D.Y. Feng, Z.W. Liu*, Z.G. Zheng, X.C. Zhong, G.Q. Zhang, Hard magnetic properties and thermal stability for TbCu7-type SmCo6.4Si0.3Zr0.3 alloys with Sm substituted by various rare-earth elements, IEEE Transactions on Magnetics, 51 (10) (2015) 2100604
[8] M.X. Wu, X.S. Gao, Z.W. Liu*, Field-dependent magnetoelectric effects in polycrystalline Co2Y-type Ba0.5Sr1.5Co2(Fe1-xAlx)12O22 hexaferrites, Journal of the American Ceramic Society, 98 (8) (2015) 2498-2502
[9] X.H. Wu, G. Wang, D.C. Zeng, Z.W. Liu, Prediction of the glass-forming ability of Fe–B binary alloys based on a continuum-field-multi-phase-field mode, Computational Materials Science, 108 (2015) 7-33
[10] L.Z. Zhao, Z.G. Zheng, X. Chen, Z.G. Qiu, J.W. Lai, G. Wang, Z.W. Liu*, R.V. Ramanujan, Magnetic characteristics for the mould-cast hard magnetic Nd70-xFe30Alx (x=0-10) alloys, IEEE Transactions on Magnetics, 51 (8) (2015) 2100406
[11] 钟喜春*,胡庚,郭兴家,刘仲武,固化条件对粘结复合磁体磁性能和抗压强度的影响,材料热处理学报,第36卷增刊I,2015 年6月,16-21
[12] 钟喜春,胡庚,郭兴家,刘仲武,粘结剂对粘结钕铁硼/锶铁氧体复合磁体磁性能的影响,材料科学与工艺,23 (05) (2015) 94-98
[13] X.X. Deng, Z.W. Liu*, H.Y. Yu, Z.Y. Xiao, G.Q. Zhang, Isotropic and anisotropic nanocrystalline NdFeB bulk magnets prepared by binder-free high-velocity compaction technique, Journal of Magnetism and Magnetic Materials, 390 (2015) 26-30
[14] X.C. Zhong*, H.C. Tian, S.S. Wang, Z.W. Liu, Z.G. Zheng, D.C. Zeng, Thermal, magnetic and magnetocaloric properties of Fe80−xMxB10Zr9Cu1 (M = Ni, Ta; x = 0, 3, 5) amorphous alloys, Journal of Alloys and Compounds, 633 (2015) 188-193
[15] X.C. Zhong, Z.W. Liu, J.X. Min, Karl A. GschneidnerJr, V. K. Pecharsky, Magnetic properties and magnetic entropy changes of MRE2Co7 compounds, Science China - Physics Mechanics & Astronomy, 58 (2015) 597501
[16] J.W. Lai, Z.G. Zheng, X.C. Zhong, V. Franco, R. Montemayor, Z.W. Liu, D.C. Zeng, Table-like magnetocaloric effect of Fe88-xNdxCr8B4 composite materials, Journal of Magnetism and Magnetic Materials, 390 (2015) 87-90
[17] K.P. Su, J. Wang, H.O. Wang, D.X. Huo, L.W. Li, Y.Q. Cao, Z.W. Liu, Strain-induced coercivity enhancement in Mn51Al46C3 flakes prepared by surfactant-assisted ball milling, Journal of Alloys and Compounds, 640 (2015) 114-117
[18] 朱忠仁,余红雅,郑志刚,钟喜春,刘仲武,曾德长,匡同春,铜模铸造法制备Mn1.15Fe0.85P0.55Si0.45化合物及其磁相变研究,功能材料,46 (8) (2015) 08119
[19] D.Y. Qian, M. Hussain, Z.G. Zheng, X.X. Gao, Z.W. Liu*, Compositional optimization for nanocrystalline hard magnetic MRE-Fe-B-Zr alloys via modifying RE and B contents, Journal of Magnetism and Magnetic Materials, 384 (2015) 87-92
[20] 侯玉花,曾德长,刘仲武,黄有林,稀土掺杂对钴铁氧体电子结构和磁性能影响的理论研究,物理学报,64 (3) (2015) 037501
[21] 张家胜,王进,郑志刚,刘仲武,余红雅,陈燕凌,汪民,热处理温度对Fe83.5B15Cu1.5合金结构及性能影响,磁性材料与器件,46 (2015) 6-10
[22] Y.Y. Meng, D.Y. Chen, Y.T. Sun, D.L. Jiao, D.C. Zeng, Z.W. Liu*, Adsorption of Cu2+ ions using chitosan-modified magnetic Mn ferrite nanoparticles synthesized by microwave-assisted hydrothermal method, Applied Surface Sciences, 324 (2015) 745-750
[23] Zubair Ahmad, Mi Yan, Shan Tao, S. Wilayat Husain, Zhongwu Liu, Effects of gadolinium and silicon substitution on magnetic properties and microstructure of Nd–Fe–B–Nb bulk nanocomposite magnets, Journal of Magnetism and Magnetic Materials, 378 (2015) 558-564
[24] LIU Hong, GAN Wei-ping, LIU Zhong-wu, ZHENG Feng. Composition change and capacitance properties of ruthenium oxide thin film. Journal of Central South University. 22 (2015) 8-13
[25] J.X. Min, X.C. Zhong, V. Franco, H.C. Tian, Z.W. Liu, Z.G. Zheng, D.C. Zeng, Structure, magnetic properties and giant magnetocaloric effect of Tb4Gd1Si2.035Ge1.935Mn0.03 alloy. Intermetallics, 57 (2015) 68-72
[26] K.P. Su*, D.L. Tao, J. Wang, D.X. Huo, Y.Q. Cao, Z.W. Liu*, Y.J. Zhang, Preparation of MnAlC flakes by surfactant assisted ball-milling and the effects of annealing, International Journal of Materials Research, 106 (1) (2015) 75-79
[27] H.C. Tian, X.C. Zhong, Z.W. Liu, Z.G. Zheng, J.X. Min, Achieving table-like magnetocaloric effect and large refrigerant capacity around room temperature in Fe78−xCexSi4Nb B12Cu1 (x=0–10) composite materials, Materials Letters, 138 (2015) 64-66
[28] 张启沛,钟喜春,李春明,郭燕伶,余赟,焦东玲,匡同春,电弧离子镀与磁控溅射复合技术制备Ti/TiN/TiAlN复合涂层的组织结构与力学性能,真空科学与技术学报,35(2) (2015) 195-199
[29] 张启沛,钟喜春,李春明,匡同春,郭燕伶,磁过滤电弧离子镀TiN薄膜的制备及性能研究,真空科学与技术学报,35(4) (2015) 444-450