华中科技大学国家脉冲强磁场科学中心
学校主页 | English

中心概况

About Us

中心人员

当前位置: 首页 > 中心概况 > 中心人员 > 正文

曹全梁

发布日期:2017-06-29    作者:     来源:     点击:

姓名:曹全梁

职称:副研究员

电话:027-87792334-8006

邮箱:quanliangcao#hust.edu.cn(请将#换成@


受教育经历

2008/09-2013/06,华中科技大学,电气与电子工程学院,工学博士(直博)

2004/09-2008/07,华中科技大学,电气与电子工程学院,工学学士


工作经历

2016/11-至今,华中科技大学,国家脉冲强磁场科学中心/电气与电子工程学院,副研究员

2013/06-2016/10,华中科技大学,国家脉冲强磁场科学中心/电气与电子工程学院,讲师


研究领域

主要从事强电磁技术及在材料加工和生物医学等领域的交叉应用研究工作,具体研究方向:微/纳米粒子磁操控、电磁成形。


学术兼职/承担的项目与课题

主持国家自然科学基金项目2项(面上和青年各1项)和华中科技大学自主创新基金项目2项,主研完成国家973计划课题1项,参与国家重点研发计划课题1项和国家自然科学基金项目4项等。担任ICMFLOC 2018国际会议分会场(磁流体操控)主席,IEEE Trans MagnIEEE AccessSensor Actuat B-ChemMicrofluid Nanofluid等多个SCI国际期刊审稿人。

1.国家自然科学基金面上项目,纳米磁分离过程中粒子磁团聚和水动力行为及其对分离性能的影响机制研究(51877087),2019/01-2022/12,主持。

2.国家自然科学基金青年科学基金项目,振荡复合梯度磁场作用下磁性微粒的解聚式分离特性研究(51407083),2015/01-2017/12,主持(已结题)。

3.华中科技大学自主创新基金面上项目,基于强脉冲电磁吸引力的轻合金快速成形技术研究(2016YXMS281),2016/01-2018/12,主持。

4.华中科技大学自主创新基金青年项目,深冲型构件在电磁成形过程中的塑性流动特性及电磁力调控策略研究,2014/01-2015/12,主持(已结题)。

5.国家重点研发计划项目,超强脉冲磁体理论与设计(2016YFA0401701),2016/07-2020/06参与。

6.科技部国家973项目课题,多级多向脉冲强磁场系统结构布局优化及设计准则(2011CB012801),2011/11-2016/08,参与(已结题)。

7.国家自然科学基金面上项目,脉冲强磁场驱动下块体非晶合金高能率成形基础研究,2019/01-2022/12参与。

8.国家自然科学基金面上项目,动态磁场对磁转染行为的影响及转染效率的增强机制研究(51577083),2016/01-2019/12参与。


代表性成果(近年的教学和科研成果、专著与论文、专利、获奖)

以第一或通讯作者发表SCI论文19篇,含二区以上论文9篇,1篇获评J Phys D: Appl Phys年度亮点论文。申请国家发明专利10余项,已授权专利6项。

1.Q. Cao, Z. Li. Z. Lai, et al. Analysis of the effect of an electrically conductive die on electromagnetic sheet metal forming process using the finite element-circuit coupled method. The International Journal of Advanced Manufacturing Technology, 2018, accepted.

2.Q. Cao, Z. Li, Z. Wang, et al. Disaggregation and separation dynamics of magnetic particles in a microfluidic flow under an alternating gradient magnetic field. Journal of Physics D: Applied Physics, 2018, 51(19): 195002.

3.Q. Cao, Z. Li, Z. Wang, et al. Rotational motion and lateral migration of an elliptical magnetic particle in a microchannel under a uniform magnetic field. Microfluidics and Nanofluidics, 2018, 22(1): 3.

4.Q. Cao, M. Liu, Z. Wang, et al. Dynamic motion analysis of magnetic particles in microfluidic systems under an external gradient magnetic field, Microfluidics and Nanofluidics, 21 (2017): 24.

5.Q. Cao, Z. Lai, Q. Xiong, et al. Electromagnetic attractive forming of sheet metals by means of a dual-frequency discharge current: design and implementation, International Journal of Advanced Manufacturing Technology, 90 (2017): 309-316.

6.M. Liu, X. Han,Q. Cao*, et al. Performance analysis of a microfluidic mixer based on high gradient magnetic separation principles, Journal of Physics D: Applied Physics, 50 (2017): 365004.

7.Q. Cao, X. Han, L. Chun, et al. Note: Magnetic targeting for enhancement of the activation efficiency of G protein-coupled receptor with a two-pair coil system, Review of Scientific Instruments, 87 (2016): 016103.

8.Q. Cao, Z. Wang, B. Zhang, et al. Targeting behavior of magnetic particles under gradient magnetic fields produced by two types of permanent magnets, IEEE Transactions on Applied Superconductivity, 26 (2016): 4401305.

9.X. Han, Z. Wang,Q. Cao*, et al. Numerical and Experimental Investigations on the Manipulation of Magnetic Particles in a Microsystem Using a Hybrid Magnet System. IEEE Transactions on Applied Superconductivity, 2016, 26(4): 1-4.

10.X. Han, Y. Feng,Q. Cao*, L. Li, Three-dimensional analysis and enhancement of continuous magnetic separation of particles in microfluidics, Microfluidics and Nanofluidics, 18 (2015): 1209-1220.

11.Q. Cao, X. Han, Z. Lai, et al. Analysis and reduction of coil temperature rise in electromagnetic forming, Journal of Materials Processing Technology, 225 (2015): 185-194.

12.Q. Cao, X. Han, L. Li, An active microfluidic mixer utilizing a hybrid gradient magnetic field, International Journal of Applied Electromagnetics and Mechanics, 47 (2015): 583-592.

13.Q. Cao, L. Li, Z. Lai, et al. Dynamic analysis of electromagnetic sheet metal forming process using finite element method, International Journal of Advanced Manufacturing Technology, 74 (2014): 361-368.

14.Q. Cao, X. Han, Z. Lai, et al. Effects of current frequency on electromagnetic sheet metal forming process. IEEE Transactions on Applied Superconductivity, 2014, 24(3): 1-4.

15.Q. Cao, X. Han, L. Li, Configurations and control of magnetic fields for manipulating magnetic particles in microfluidic applications: magnet systems and manipulation mechanisms, Lab on a Chip, 14 (2014): 2762-2777.

16.Q. Cao, X. Han, L. Li, Two-dimensional manipulation of magnetic nanoparticles in microfluidic systems. Applied Physics Express, 2013, 6(2): 025201.

17.Q. Cao, X. Han, B. Zhang, et al. Analysis and optimal design of magnetic navigation system using Helmholtz and Maxwell coils. IEEE Transactions on Applied Superconductivity, 2012, 22(3): 4401504.

18.Q. Cao, X. Han, L. Li, Numerical analysis of magnetic nanoparticle transport in microfluidic systems under the influence of permanent magnets. Journal of Physics D: Applied Physics, 2012, 45(46): 465001.

19.Q. Cao, X. Han, L. Li, Enhancement of the efficiency of magnetic targeting for drug delivery: Development and evaluation of magnet system. Journal of Magnetism and Magnetic Materials, 2011, 323(15): 1919-1924.