考博考生生准备要参加博士研究生考试时，必须要先确定准备攻读博士的相关专业，然后选择该专业有招生需求的学校，接下来应该联系博士生导师，只有当博士生导师同意考生报考，考博生才可以报考。所以提前了解博士生导师的学术文章及联系方式很重要，新东方在线特整理了各招收博士院校博导的简介及联系方式供考博生参考。

　　王林翔

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　　E-Mail:Wanglx236@zju.edu.cn

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　　研究方向1智能结构与器件 2 机械电子工程 3 数学建模与数值分析

　　出访及挂职经历2010.04 -2010.07加拿大 滑铁卢大学

　　工作经历1999.08-2000.08, 上海交通大学与宝钢研究院自动化研究所联合博士后流动站，博士后。

　　2000.09-2001.12, 韩国庆熙大学机械工程系，博士后。

　　2002.01-2003.02, 南丹麦大学工学院，博士后。

　　2003.03-2006.03, 南丹麦大学工学院，助理教授 (Assistant Prof.)。

　　2006.03-2008.02, 南丹麦大学工学院, 副教授 (Associate Prof.)。

　　2008.03-2011.07，杭州电子科技大学 特聘教授。

　　2011.08-至今浙江大学教授

　　代表性论文著作1.Linxiang Wang, Jun Yang, Junbo Leiand Fuzai Lv. Computational martensite re-orientation in shape memory alloys and the related hysteretic dynamics. Model. Simul. Mater. Sci. Eng. 2014, 22, 45006

　　2.L.X.Wang, R.V.N. Melnik, Nonlinear dynamics of shape memory alloy oscillators in tuning structural vibration frequencies. Mechatronics 22 (2012)1085–1096 .

　　3.L. X. Wang, RVN, Melnik, F. Z. Lv, Stress induced polarization switching and coupled hysteretic dynamics in ferroelectric materials, Frontiers of Mechanical Engineering, 2011. 6(3):287-291

　　4.Rong Liu, Linxiang Wang, Researches on Differential Model of Magnetorheological Dampers in the Dependence on the Loading Rates, Advanced Science Letters, 2011, Vol. 4, P: 814–818.

　　5.L. X. Wang, RVN, Melnik, Low dimensional approximations to ferroelastic dynamics and hysteretic behaviour due to phase transformations， ASME Trans, Journal of applied mechanics,2010，77: 031015.

　　6.L. X. Wang, M. Willatzen, Extension of the Landau theory for hysteretic electric dynamics in ferroelectric ceramics, Journal of Electroceramics, 2010, 24(1):51-57

　　7.L. X. Wang, RVN, Melnik，Control of coupled hysteretic dynamics of ferroelectric materials with a Landau-type differential model and feedback linearization，Smart Materials & Structures, 2009,18(7):074011.

　　8.L. X. Wang, M. Willatzen, Modelling of nonlinear dynamics for reciprocal multi-layer piezoceramic transducer systems, Applied Mathematical Modelling, 2009, 33:2263-2273.

　　9.L. X. Wang, R. Liu, R. V. N. Melnik, Modeling large reversible electric-field-induced strain in ferroelectric materials using 90o orientation switching, Sci China Ser E-Tech Sci(中国科学E辑英文版)， 2009, 52(1): 141-147.

　　10.M. Willatzen, L. X. Wang, and L.C. Lew Yan Voon, Electrostriction in GaN/AlN heterostructures, Superlattices and Microstructures, 2008, 43(5-6): 436-440.

　　11.L. X. Wang, R. V. N. Melnik, Modifying macroscale variant combinations in 2D structure using mechanical loadings during thermally induced transformation, Material Science and Engineering A, 2008,481-482:190-193.

　　12.L. X. Wang, R. V. N. Melnik, Simulation of phase combinations in shape memory alloys patches by hybrid optimization methods, Applied Numerical Mathematics, 2008, 58 (4):511-524.

　　13.M. Willatzen, L.X. Wang, Mathematical modelling of one-dimensional piezoelectric transducers based on monoclinic crystals,Acta Acustica united with Acustica, 2007, 93 (5):716-721

　　14.L. X. Wang, R. V. N. Melnik, Thermo-mechanical wave propagation in shape memory alloy rod with phase transformations, Mechanics of Advanced Materials and Structures, 2007, 14 (8):665-676.

　　15.L. X. Wang, R. V. N. Melnik, Finite volume analysis of nonlinear thermo-mechanical dynamics of shape memory alloys,Heat and Mass Transfer, 2007, 43(6):535-546

　　16.L. X. Wang, R. V. N. Melnik, Numerical model for vibration damping resulting from the first order phase transformations, Applied Mathematical Modelling, 2007, 31:2008-2018.

　　17.L.X.Wang, and M. Willatzen, Nonlinear dynamical model For hysteresis based on non-convex potential energy,ASCE, Journal of Engineering Mechanics, 2007, 133(5):506-513.

　　18.L. X. Wang, R. V. N. Melnik, Model reduction applied to the square to rectangular martensite transformation using proper orthogonal decomposition, Applied Numerical Mathematics, 2007, 57:510-520.

　　19.L.X. Wang, M. Willatzen, Modelling of nonlinear responses for reciprocal transducers involving polarization switching,IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2007, 54(1):177-189.

　　20.L. X. Wang, R. V. N. Melnik, Mechanically induced phase combination by Chebyshev collocation methods, Material Science and Engineering A, 2006, 438-440 : 427-430.

　　科研项目中央高校青年创新基金：基于智能结构的海洋仿生驱动系统的动力学与控制技术研究。

　　国家自然基金面上项目: 基于朗道相变理论的形状记忆合金的热弹性动力学与控制研究。

　　流体传动及控制国家重点实验室开放基金：基于受控磁流变流体流动的高频响大流量比例阀机理研究。

　　浙江省自然科学基金：基于受控磁流变流动的高频响大流量比例阀研究

　　浙江省自然科学基金：水下压电圆柱壳结构振动与近场声场特性研究。

　　其他与企业合作研发项目等

　　以ARM11系列处理器为控制核心，支持Win CE 5.0/6.0，实时荧光定量PCR系统基于基因学原理，集成信息科学、微电子学、光机电仪器等工程科学手段，实现了PCR热循环扩增、多通道荧光快速检测以及核酸定量智能分析诊断。