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最新更新时间:2018/3/9 14:58:34
崔晓辉


崔晓辉,博士,特聘副教授
电话:15388028791
邮箱:cuixh622@csu.edu.cn
地址:湖南省长沙市岳麓区中南大学新校区机电楼A219B
工作经历
2017.03-至今       中南大学            机电工程学院               特聘副教授 
2015.08 - 2017.03   广东工业大学    材料与能源学院           特聘副教授
2013.09 - 2015.08   华中科技大学    材料科学与工程学院    博士后
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
研究领域和实验条件
       金属板材电磁脉冲成形(一种高速率的塑性成形技术),主要针对航空航天领域的大型薄壁曲面件的成形制造,以及复杂曲面回弹控制研究。目前独立拥有近200平米的试验厂房,200KJ国内最大电磁成形装备。研究方向受到钟掘院士以及学院领导的大力支持。
          欢迎对塑性加工方面感兴趣的学生加入我们的研究团队!
科研项目
1、国家自然科学基金面上项目:大型铝合金件的电磁力渐进推拉复合成形的材料变形行为研究;主持;直接经费58万。
2、国家自然科学基金青年项目:电磁力径向助推筒形件渐进复合拉深变形基础研究;主持;经费25万。
3、中南大学高性能复杂制造国家重点实验室资助课题:大型薄壁曲面铝合金件的电磁力局部径向侧推和渐进复合成形基础研究;主持;经费20万。
4、华中科技大学材料成形与模具技术国家重点实验室:大型铝合金板材电磁脉冲渐进成形及其基础理论研究;主持;经费:5万。
学术成果
  出版专著一本(科学出版社,排名第2),以第一申请人申请国家发明专利10余项,发表SCI论文10多篇。
[1] Cui XH, Mo JH, Li JJ, Xiao XT. The Tube bulging process using multidirectional magnetic pressure. International Journal of Advanced Manufacturing Technology, 2017, 90:20752082.
[2] Cui XH, Mo JH, Li JJ, Yu HL, Wang QS. Reduction of springback in V-shaped parts using electromagnetic impulse calibration,International Conference on the Technology of Plasticity, ICTP 2017, 2017.09.17-2017.09.22.
[3] 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.
[4] 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.
[5] 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. 2016, 85: 843~851.
[6] Cui XH, Mo JH, Li JJ.  Investigation into large sheet deformation process in electromagnetic incremental forming. Material and design. 2015, 76: 86-96.
[7] Cui XH, Mo JH, Li JJ. Variation of thickness distribution during electromagnetic sheet bulging. International Journal of Advanced Manufacturing Technology, 2015, 80: 515-521.
[8] 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.
[9] 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.
[10] 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.
[11] 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.
[12] 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.
[13] 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.
[14] 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.
 
 
 





 
 


 
 


 


 

 


 





 

大型铝合金件的电磁力渐进推拉...
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