王晓杰

个人信息：姓名：王晓杰职位：研究员

联系方式: 中国科学院合肥物质科学院先进制造技术研究所

地址：江苏省常州市常武中路80号邮编：213164

Email: xjwang@iamt.ac.cn.http://scholar.google.com.hk/citations?user=PxRKaooAAAAJ&hl=en

教育经历：

学士(BS)          1984.9-1989.7  中国清华大学流体力学

硕士(MS)        1995.9-1998.7   中国中国科学技术大学固体力学

博士(PHD）1998.8-2002.12 美国美国内华达大学（里偌分校）机械工程

工作经历：

助理研究员1989.8-1995.8      中国中国科学院等离子体物理研究所

博士后2002.12-2005.12   美国内华达大学复合和智能材料实验室

研究助理教授 2006.1-2013.8    美国内华达大学（里偌分校）机械工程系

研究员2013.8-现在中国中国科学院合肥物质科学院先进制造技术研究所

主要学术成就：

长期从事智能材料及其在机械/结构振动和控制方面的理论和应用研究，专长流变学理论和分析，在新型智能流体阻尼系统的设计和开发方面，具有十多年的理论和实践经验。参与和共同主持十多项NSF,US Army, Navy及美国大小公司的科研项目。发表论文80余篇（30篇SCI及60余篇Ei）获得2项美国国家专利。为英文“智能材料”一书撰写磁流变材料和应用一章。该书由Pierre-Gilles de Gennes（1991年诺贝尔物理奖得主）作序， 2007年英国皇家化学协会出版发行。主要成果曾在数十种国际会议上做应邀或口头报告。美国机械工程学会，国际光学工程学会和流变学学会会员，十几种国际刊物的专业审稿人。

　　主要著作和论文

1.P Raja, X Wang, F Gordaninejad，" A high-force controllable MR fluid damper–liquid spring suspension system," Smart Materials and Structures, Vol.23, No.1, 015021, 2014.

2.         HuseyinSahin, X Wang, FaramarzGordaninejad, “Magneto-rheological fluid flow through complex valve geometries,”    International Journal of Vehicle Design, 63 (2), 241-255, 2013.

3.FaramarzGordaninejad, X Wang, MutyalaRaoPotnuru, SreeramMantripragada, “A compressible magneto-rheological fluid damper - liquid spring system,” International Journal of Vehicle Design, 63 (2-3), 2-3, 2013.

4.            York, D., Wang, X. and FaramarzGordaninejad, "A New Magnetorheological Mount for Vibration Control," ASME Journal of Vibration and Acoustics, Vol. 133, Issue 3, 031003, 2011.

5.      Kavlicoglu, B., Gordaninejad, F. and Wang, X., "A Unified Approach for Flow Analysis of Magnetorheological Fluids," ASME Journal of Applied Mechanics, Vol. 78, Issue 4, 041008, 2011.

6.      Whiteley, J., Gordaninejad, F. and Wang, X., "Study of Magneto-Rheological Fluid Flow in Microchannels," ASME Journal of Applied Mechanics, Vol. 77, 041011-1, July, 2010.

7.      Aydar, G., Wang, X., and Gordaninejad, F., "A Novel Two-Way Controllable Magnetorheological Fluid Damper," Smart Materials and Structures, Vol.19, No.6, 065024, 2010.

8.      F. Gordaninejad, X. Wang, G. Hitchcock, K.  Bangrakulur,  S. Ruan and M. Siino, “A Modular High-Force Seismic Magneto-Rheological Fluid Damper,”  Journal of Structure Engineering, ASCE， 136(2), 135-143， 2010

9.      Wang, X., Gordaninejad,F., “A new magnetorheological fluid-elastomer mount: phenomenological modeling and experimental study,” (featured article) Smart Materials and Structures, Vol.18,No.9, 095045, 2009.

10.   Wang, X., Gordaninejad, F., Calgar, M., Liu, Y., Sutrisno, J. and Fuchs, A., “Sensing Behavior of Magneto-Rheological Elastomers ,”  Journal of Mechanical Design, ASME, Vol. 131 (9),  091004, 2009.

11.   York D, Wang, X. and Gordaninejad, F., “A new MR fluid-elastomer vibration isolator,” Journal of Intelligent Materials, System and Structures,  Vol.18 (12): 1221-1225,2007.

12.   Hitchcock, G. H., Wang, X, Gordaninejad, F., ““A New By-Pass Magnetorheological fluid damper.” Transactions of the ASME, Journal of Vibration and Acoustics, 129(5): 641-647,2007.

13.   Wang, X., and Gordaninejad, F., “Flow Analysis And Modeling Of Field-Controllable, Electro- and Magneto-Rheological Fluid Dampers.”  Transactions of the ASME, Journal of Applied Mechanics, 74(1), 13-22, 2007

14.Wang, X., Gordaninejad, F. “Magnetorheological Materials and their Applications: A Review” Chapter 14 in  Intelligent Materials,  M. Shahinpoor and H.-J. Schneider (Eds.), Royal Society of Chemistry Publishing, Cambridge, United Kingdom ，2007

15.   Wang, X., and Gordaninejad, F, “Behavior of Magnetorheological Fluids at High Shear Rates.”  RheologicaActa, 45 (6), 899-908, 2006

16.   Wang, X. and Gordaninejad, F., “Lyapunov-Based Control of a Bridge Using Magneto-Rheological Fluid Dampers,” Journal of Intelligent Materials, System and Structures,  Vol.13 (7-8), pp415-419,2002

17.   Wang, X. ,P.Q.Zhang, X., Tang and R.Tao., “Testing and Modeling a Cone-Shaped Squeeze-Film Mode Electrorheological Damper.” Journal of Intelligent Materials, System and Structures, Vol.10, NO.9 pp748-752, 1999.

18.   Wang, X., and Gordaninejad, F., “Flow Analysis of Field Controllable Electro-Rheological and Magneto- Rheological Fluids Using Herschel-Bulkey Model,” Journal of Intelligent Materials, System and Structures, Vol.10, NO.8 pp601-608, 1999.