基本信息
王晓东 男 博导 材料科学与光电技术学院
电子邮件：xiaodong.wang@ucas.ac.cn
通信地址：北京市石景山区玉泉路19号甲
邮政编码：100049


研究领域1. 材料的电磁过程（Electromagnetic Process of Materials, EPM）
材料的电磁过程是指在材料的成形过程中施加电磁场从而开发出新材料或新工艺的学科。它在冶金、半导体材料生长以及核、电工业中有着广泛的应用。所采用的电磁场从永磁磁场、感应磁场到超强磁场呈多样化，可利用的频率范围非常广。材料的电磁过程是一门交叉学科，它综合了电磁学、传热学、流体力学和金属等很多学科的知识，因此为这个学科的研究发展提供了高度的延展性。

2. 磁流体动力学 (Magnetohydrodynamics, MHD)
磁流体动力学 是研究磁场与导电流体之间相互作用的学科。磁场不仅对“人为”流体的流动产生影响，如对液态金属的加热、驱动、搅动和悬浮，这种影响也存在于自然界中，如地磁场维持了地心熔体的运动。一般来说导电流体包括液态金属、电离气体和强电解质等。磁场与流体的相互作用遵从法拉第和安培定律，所产生的的感应电流与磁场相互作用产生洛仑兹力作用于导电流体。

目前开展的主要研究方向有：
(1) 电磁测量；
(2) 新型磁场的开发与交叉学科应用；
(3) 导电流体的电磁测控技术；
(4) 受迫对流（磁场作用下）条件下金属熔体的凝固机制；
(5) 磁流体动力学基础与应用研究；
(6) 多物理场、多相耦合的数值模拟。
招生信息欢迎材料和物理类考生报考硕士、博士研究生；
博士后招聘信息见：http://www.gucas.ac.cn/site/157?u=60166
教育背景 2010-02--2011-09 德国Ilmenau科技大学 研究员
1999-03--2002-10 大连理工大学 博士
1996-09--1999-02 国防科技大学 硕士
1991-09--1995-07 武汉科技大学 本科


学历? 1991.09-1995.07 武汉科技大学，材料科学与工程系，金属材料及热处理专业，学士
? 1996.09-1999.01 国防科技大学，材料工程与应用化学系，金属基复合材料专业，硕士
? 1999.02-2002.09 大连理工大学，材料科学与工程学院，材料加工工程专业，博士

学位
工作经历? 2002-2003 德国伊尔梅瑙科技大学(Ilmenau University of Technology ) 电气工程与信息技术学院(Department of Electrical Engineering and Information Technology)，电热工程专业，博士后
? 2003-2008 法国国家科技研究中心(CNRS) 材料电磁过程（EPM）研究所，博士后研究员
? 2008-2010 加拿大麦吉尔大学 (McGill University)，金属材料过程中心(MMPC)， 研究员
? 2010-2011 德国伊尔梅瑙科技大学 (Ilmenau University of Technology)，机械系(Department of Mechanical Engineering)，热、磁流体动力学(Thermo- and Magneto-Fluid Dynamics)专业，博士后研究员
? 2011-至今 中科院研究生院，材料科学与光电技术学院，教授

代表性文章Year of 2012
[1] Xiaodong Wang, Yurii Kolesnikov, André Thess. Numerical Calibration of a Lorentz Force Flowmeter. Meas. Sci.tech..Vol.23 (2012) 045005.
[2] Lakhdar Hachani, Bachir Saadi, Xiaodong Wang, Yves Fautrelle, et al. Experimental analysis of the solidification of Sn–3 wt.%Pb alloy under natural convection. Int. Journal Heat and Mass Transfer. Vol.55 (2012), pp.1986–1996.
[3] Rico Klein, Christian Weidermann, Xiaodong Wang, Andre Thess. Contactless flow measurement of liquid metals using Lorentz Force velocimetry. TM-Technisches Messen. 79 (2012) 9, pp.394-398. DOI 10.1524/teme.2012.0262.


Before year of 2012
[4] Xiaodong Wang, Rico Klein, Yurii Kolesnikov and André Thess. Application of Lorentz Force Velocimetry to Open Channel Flow. Materials Science Forum. Vol. 690 (2011) pp. 99-102.
[5] Xiaodong Wang, Mihaiela Isac and Roderick I.L.Guthrie. Numerical studies on the in-situ measurement of inclusions in liquid steel using the E.S.Z. or LiMCA technique. ISIJ. Vol. 49, No.7 (2009), pp.975-984.
[6] Xiaodong Wang, Yves Fautrelle, Jacqueline Etay and Réne Moreau. A periodically reversed flow driven by a modulated traveling magnetic field. Part I: Experiments with GaInSn. Metallurgical and Materials Transactions B. Vol.40B (2009), pp.82-90.
[7] Xiaodong Wang, Réne Moreau, Jacqueline Etay and Yves Fautrelle. A periodically reversed flow driven by a modulated traveling magnetic field. Part II: theoretical model. Metallurgical and Materials Transactions B. Vol.40B (2009), pp.104-113.
[8] Xiaodong Wang, Yves Fautrelle. An investigation of the influence on tin solidification using a quasi- two- dimensional experimental benchmark. Int. Journal Heat and Mass Transfer. Vol.52 (2009), pp.5624–5633.
[9] Anna Noppel, Alexander Ciobanas, Xiaodong Wang and Yves Fautrelle, etc. Influence of Forced/Natural Convection on Segregation During the Directional Solidification of Al-Based Binary Alloys. Metallurgical and Materials Transactions B. Vol.41B (2010), pp.193-208.
[10] X.D. Wang, P. Petitpas, C. Garnier, J.P. Paulin and Y. Fautrelle. A quasi two-dimensional benchmark experiment for the solidification of a tin-lead binary alloy. Comptes rendus de academic mechanic. No.5 (2007), pp.1-6.
[11] X.D. Wang, A. Ciobanas, F. Baltaretu, A.M. Bianchi, Y. Fautrelle, Control of the Macrosegregation during Solidification of a Binary Alloy by means of a AC Magnetic Field, Materials Science Forum. Vol. 508 (2006), pp. 163-168.
[12] X.D. Wang, Y. Fautrelle, M.D. Dupouy, T.J. Li, J.Z. Jin. Free surface flow control and electromagnetically-driven stirring by a double-permanent-magnet-driver. Materials Science Forum. Vol.508 (2006), pp. 69-634.
[13] X.D. Wang, T.J. Li, Y. Fautrelle, M.D. Dupouy and J.Z. Jin. Two kinds of magnetic fields induced by one pair of rotating permanent magnets and their application in stirring and controlling molten metal flows, J. Crystal Growth. 275 (2005) , pp.654-661.
[14] Ch.-A.Gandin, J.Blaizol, Y.Fautrelle and X.D.Wang. Modeling of heat and solute interactions upon Grain structure solidification. Materials Science Forum. Vol.649 (2010), pp. 189-198.
[15] X.D. Wang, T.J. Li, J.Z. Jin. Study on phase well-balanced of a harmonic electromagnetic field. Journal of Dalian university of technology. Jan. (2002). Vol.42, No.1. 1- 4.
[16] X.D. Wang, T.J. Li, J.Z. Jin. Liquid metal flow driven and controlled by the magnetic force double-driving apparatus. Rare metal material and engineering. May (2002), 31(3): 187-191.
[17] X.D. Wang, T.J. Li, J.Z. Jin. The theory of a traveling magnetic field excited by a permanent magnet and its refining function on the metal solidification structure. Rare metal material and engineering. Feb. (2002), 31(1), pp.26-30.
[18] X.D. Wang, T.J. Li, J.Z. Jin. Effect of electromagnetic field on finial solidifying process of continuous casting. Acta Metallugica sinica. Sept. (2001), Vol.37, No.9. pp. 971-974.
[19] X.D. Wang, T.J. Li, J.Z. Jin. Effect of electromagnetic driver force on solidification of the billet. Material engineering. No.6, (2001). pp.13-15.
[20] X.D. Wang, T.J. Li, J.Z. Jin. Research on feeding mechanism during metal solidification under rotating electromagnetic field. Material engineering. No.11, (2001). pp.3-5.
[21] X.D. Wang, T.J. Li, J.Z. Jin. Research and development of magnetic force agitation. Material science and technology. Dec. (2000). Vol.8, No.4. pp.1-5.
[22] WANG Xiao-dong，ZHAO Xu，LI Ting-ju，et al． Research and development of magnetic force agitation [J]．Materials Science and Technology, 2000, 8 (4): 1-5.

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