崔晓辉 - 中南大学 - 机电工程学院

个人简介

教育背景 2009.09 - 2013.06 华中科技大学材料科学与工程学院博士 2007.09 - 2009.06 华中科技大学材料科学与工程学院硕士 2003.09 - 2007.06 华中科技大学材料科学与工程学院学士

研究领域

先进金属材料塑性成形技术及其形状/性能一体化控制、CAD/CAM/CAE等方面的研究，包括：（1）多时空多向脉冲强磁场成形技术；（2）金属板材渐进成形；（3）高强钢多道次渐进折弯成形研究

近期论文

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[19] Cui XH, Zhang ZW, Du ZH, Yu HL, Qiu DY, Cheng YQ, Xiao XT. Inverse bending and springback-control using magnetic pulse forming. Journal of Materials processing Technology. 2019. [18] Cui XH,Zhang ZW, Yu HL, Cheng YQ, Xiao XT. Dynamic Uniform Deformation for Electromagnetic Uniaxial Tension. Metals, 2019, 9, 425. [17] Cui XH, Zhang ZW, Yu HL, Xiao XT, Cheng YQ. Springback Calibration of a U-Shaped Electromagnetic Impulse Forming Process. Metals, 2019, 9, 603. [16] Cui XH, Qiu DY, Jiang LN, Yu HL, Du ZH, Xiao A. Electromagnetic sheet forming by uniform pressure using flat spiral coil. Materials, 2019, 12: 1963. [15] Cui XH, Yu HL, Wang QS. Reduction of corner radius of cylindrical parts by magnetic force under various lading methods. The International Journal of Advanced Manufacturing Technology. 2018, 97: 2667-2674. [14] Cui XH, Yu HL, Wang QS. Electromagnetic impulse calibration in V-shaped parts. International Journal of Advanced Manufacturing Technology, 2018, 97: 2959-2968. [13] Cui XH, Mo JH, Li JJ, Xiao XT. The Tube bulging process using multidirectional magnetic pressure. International Journal of Advanced Manufacturing Technology, 2017, 90:2075–2082. [12] Cui XH, Mo JH, Li JJ. Large-scale sheet deformation process by electromagnetic incremental forming combined with stretch forming. Journal of Materials Processing Technology. 2016, 237:139~154. [11] Cui XH, Li JJ, Mo JH, Fang JX, Zhou Bo, Xiao XT, Feng F. Incremental electromagnetic-assisted stamping (IEMAS) with radial magnetic pressure: a novel deep drawing method for forming aluminum alloy sheets. Journal of Materials Processing Technology, 2016, 233: 79-88. [10] Cui XH, Li JJ, Mo JH, Fang JX, Zhou Bo, Xiao XT. Effect of the sheet thickness and current damping exponent on the optimum current frequency in electromagnetic forming. International Journal of Advanced Manufacturing Technology. 2016, 85: 843~851. [9] Cui XH, Mo JH, Li JJ. Investigation into large sheet deformation process in electromagnetic incremental forming. Material and design. 2015, 76: 86-96. [8] Cui XH, Mo JH, Li JJ. Variation of thickness distribution during electromagnetic sheet bulging. International Journal of Advanced Manufacturing Technology, 2015, 80: 515-521. [7] Cui XH, Mo JH, Li JJ, Zhao J, Zhu Y, Huang L, Li ZW, Zhong K. Electromagnetic incremental forming (EMIF): a novel aluminum alloy sheet and tube forming technology. Journal of Materials Processing Technology, 2014, 214: 409-427. [6] Cui XH, Mo JH, Fang JX, Li JJ. Deep drawing of cylindrical cup using incremental electromagnetic assisted stamping with radial magnetic pressure. Procedia Engineering, 2014, 81: 813-818. [5] Cui XH, Mo JH, Li JJ, Huang L, Zhu Y, Li ZW, Zhong K. Effect of second current pulse and different algorithms on simulation accuracy for electromagnetic sheet forming. International Journal of Advanced Manufacturing Technology, 2013, 68: 1137-1146. [4] Cui XH, Mo JH, Han F. 3D Multi-physics field simulation of electromagnetic tube forming. International Journal of Advanced Manufacturing Technology, 2012, 59: 521-529. [3] Cui XH Mo JH, Zhu Y. 3D modeling and deformation analysis for electromagnetic sheet forming process. Trans. Nonferrous Met. Soc. China, 2012, 22: 164-169. [2] Cui XH, Mo JH, Xiao SJ, Du EH. Magnetic force distribution and deformation law of sheet using uniform pressure electromagnetic actuator. Trans. Nonferrous Met. Soc. China, 2011, 21: 2484-2489. [1] Cui XH, Mo JH, Xiao SJ, Du EH, Zhao J. Numerical simulation of electromagnetic sheet bulging based on FEM. The International Journal of Advanced Manufacturing Technology, 2011, 57 : 128-134.