张文明 教授
所在系所振动、冲击、噪声研究所
办公电话
通讯地址上海交大机械与动力工程学院机动大楼A-838室
电子邮件wenmingz@sjtu.edu.cn
个人主页


教育背景 2003-2006 上海交通大学 机械工程专业博士
1996-2003 无锡轻工大学（现江南大学）机械工程专业学士/硕士

工作经历 2019- 上海交通大学机械与动力工程学院 　党委副书记
2017- 上海交通大学机械与动力工程学院 　****，副所长
2013-2016 上海交通大学机械与动力工程学院 　研究员、博士生导师
2009-2012 上海交通大学机械与动力工程学院 　副教授
2006-2008 上海交通大学机械与动力工程学院 　师资博士后、讲师

出访及挂职经历 2014.08-2014.09 英国谢菲尔德大学自动化学院 访问教授
2013.07-2013.08 英国谢菲尔德大学自动化学院 访问****
2011.03-2013.02 国家自然科学基金委员会数理科学部力学处 流动项目主任
2010.10-2011.02 日本京都大学 日本学术振兴会（JSPS）特别研究员

研究方向 【1. 微/纳机电系统】--微纳系统动力学设计理论、谐振传感理论与器件、超高频振动测量理论及技术等
【2. 智能材料结构与器件】--智能柔性驱动器件、软体机器人设计与控制、振动能量采集技术等
【3. 转子动力学】--航空发动机、Power MEMS、气浮润滑技术、磁悬浮技术等
【4. 微振动与控制】--航天器惯性执行器件、卫星压紧释放结构、柔性管路系统、核电装备微振动与控制技术
【5. 精密测量与智能检测】--微纳米力学表征、磁悬浮检测理论与技术、高机敏测量技术
【6. 表面力学与功能器件】--褶皱力学设计理论、微纳米褶皱图案转移技术、功能性表面器件
【7. 仿生与接触力学】--仿生黏附理论、接触动力学、空间捕获技术

科研项目 【国家/省部级科研项目】
2021-2025 国家自然科学基金重点项目“自组织微纳米褶皱结构动力学演化机制与调控方法研究”，负责人
2019-2022 上海市优秀学术带头人计划项目“谐振微机电系统动力学设计理论与传感技术”，负责人
2019-2023 上海市教育委员会科研创新计划重大项目“高敏抗磁悬浮检测机理、动力学设计理论与调控方法”，负责人
2018-2021 国家“两机”重大专项基础研究项目"***叶端定时***研究"，课题负责人
2018-2020 国家自然科学基金重大研究计划项目“快速滚动自组装软体机器人主动变形机理、动力学设计理论与控制方法研究”，负责人
2017-2021 国家****科学基金项目“微机电系统动力学”，负责人
2016-2019 国家自然科学基金面上项目"微型抗磁性轴承稳定磁悬浮机理、非线性动力学理论与实验研究"，负责人
2015-2017 上海市曙光****计划项目“微机械谐振器非线性参激振动机理研究”，负责人
2015-2017 上海市教委科研创新项目“大行程静电驱动纳米定位系统耦合动力学设计与分析方法研究”，负责人
2014-2016 国家优秀青年科学基金项目“微机电系统动力学”，负责人
2014-2014 国家自然科学基金专项项目“静电驱动纳米定位系统的微扰动作用机理与非线性动力学行为研究”，负责人
2014-2017 教育部高等院校霍英东青年教师基金项目“复杂环境下微机械谐振器的能量耗散机制与控制方法研究”，负责人
2013-2015 国家“****”中组部青年拔尖人才支持计划项目“微机电系统动力学与控制”，负责人
2011-2013 国家自然科学基金面上项目“微转子系统气体轴承的高阶滑移机理、尺度律及动力学特性研究”，负责人
2011-2013 上海市青年科技启明星计划“多场耦合作用下静电MEMS器件失效机理、可靠性评估与寿命预测方法研究”，负责人
2011-2012 科技部国家重点实验室专项项目“纳米定位系统的非线性振动溯源与控制”，负责人
2009-2010 科技部国家重点实验室专项项目“微转子—气体轴承系统动力特性理论与试验研究”，负责人
2009-2011 上海交通大学晨星青年****奖励计划项目“超高速微转子系统薄膜润滑机理研究”，负责人
2009-2011 上海交通大学医工(理)交叉研究基金面上项目“微型智能化慢性脊髓压迫器研制及应用”，合作方负责人
2007-2009 国家自然科学基金青年项目“参数激励静电驱动微机电系统的非线性振动与控制”，负责人
2007-2008 中国博士后科学基金项目“静电驱动微机电系统非线性动力学特性研究”，负责人
2011-2015 国家973计划项目子课题“大型装备中动力学非线性耦合机理”，学术骨干
2008-2011 国家自然科学基金重点项目“燃气轮机转子系统在多场耦合作用下的非线性振动与控制”，学术骨干
2004-2007 国家****科学基金项目“超高速、超微转子系统的非线性振动与控制”，主要完成人
【企/事业委托项目】
2020-2022 上海航天803研究所，**仿生黏附机理及控制技术，负责人
2020-2021 华为公司，MEMS器件长期可靠性研究，负责人
2019-2020 华为公司，MEMS器件稳定性研究，负责人
2019-2020 上海航天805研究所，XX空间***力矩测量装置及技术，负责人
2019-2020 上海空间推进研究所，XX自锁阀抗冲击***分析方法，负责人
2018-2020 上海宇航系统工程研究所，翻转式仿螳螂虾软体机器人设计理论与方法及控制，负责人
2018-2019 上海航天805研究所，XX卫星柔性管路与电缆展开过程的仿真与试验研究，负责人
2016-2018 上海航天先进技术联合研究中心技术创新项目，“***微振动生成机理与控制方法，负责人
2016-2017 上海卫星工程研究所，XX卫星核心机构***力学分析，负责人
2014-2016 TRIO中国上海杰弗朗机械设备有限公司，用模态分析方法指导振动筛的改进设计，负责人
2013-2013 中科院上海技术物理研究所，某工件***力学分析，负责人

代表性论文专著 【期刊论文】
(待发表论文)
(185) Kejing Ma, Ting Tan*, Zhimiao Yan, Fengrui Liu, Wei-Hsin Liao, Wenming Zhang*. Metamaterial and Helmholtz coupled resonator for high-density acoustic energy harvesting. Nano Energy, (2020) doi:https://doi.org/10.1016/j.nanoen.2020.105693.
(184) Zhikang Li, Libo Zhao*, Yihe Zhao, Jie Li, Tingzhong Xu, Kaiming Hu, Zichen Liu, Ping Yang, Guoxi Luo, Qijing Lin, Shiming Zhang, Martin C. Hartel, Wenming Zhang, and Zhuangde Jiang. Closed-form expressions on CMUTs with layered anisotropic microplates under residual stress and pressure. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2020, doi: 10.1109/TUFFC.2020.**.
(183) Li, W. B., Zhang, W. M. *, Gao, Q. H., Guo, Q. W., Wu, S., Zou, H. X., Yan, H., Peng, Z. K., Meng, G. Electrically Activated Soft Robots: Speed Up by Rolling. Soft Robotics, 2020, accepted for publication.
(182) GAO Qiu-Hua, YAN Han, ZOU Hong-Xiang, LI Wen-Bo, PENG Zhi-Ke, MENG Guang, ZHANG Wen-Ming*. Magnetic Levitation using Diamagnetism: Mechanism, Applications and Prospects. Science China Technological Sciences, 2020, Accepted for publication.
(181) Edmond Q. Wu, Dewen Hu, Ping-Yu Deng, Zhiri Tang, Yulian Cao, Wen-Ming Zhang, Li-Min Zhu, He Ren. Non-Parametric Bayesian Prior Inducing Deep Network for Automatic Detection of Cognitive Status. IEEE Transactions on Cybernetics, 2020, in press, doi: 10.1109/TCYB.2020.**
(180) Edmond Q. Wu ; Ping-Yu Deng ; Xu-Yi Qu ; Zhiri Tang ; Wen-Ming Zhang ; Li-Min Zhu ; He Ren ; Gui-Rong Zhou ; Richard S. F. Sheng. Detecting Fatigue Status of Pilots Based on Deep Learning Network Using EEG Signals. IEEE Transactions on Cognitive and Developmental Systems, 2020, doi: 10.1109/TCDS.2019.**.
【2021年度】
(179) Zhiran Yi, Bin Yang, Wenming Zhang, Yadong Wu, Jingquan Liu. Batteryless Tire Pressure Real-Time Monitoring System Driven by an Ultralow-frequency Piezoelectric Rotational Energy Harvester. IEEE Transactions on Industrial Electronics, 2020, 68(4): 3192.
(178) Hong-Xiang Zou, Meng Li, Lin-Chuan Zhao, Qiu-Hua Gao, Ke-Xiang Wei, Lei Zuo, Feng Qian, Wen-Ming Zhang*. A magnetically coupled bistable piezoelectric harvester for underwater energy harvesting. Energy, 2021, 217: 119429.
(177) Zhikang Li, Libo Zhao*, Jie Li, Yihe Zhao, Tingzhong Xu, Zichen Liu, Guoxi Luo, Shiming Zhang, Kaiming Hu, Tyler Hoffman, Shahid Saghi, Dejiang Lu, Wenming Zhang*, Zhuangde Jiang. Nonlinear behavior analysis of electrostatically actuated multilayer anisotropic microplates with residual stress. Composite Structures, 2021, 255: 112964.
【2020年度】
(176) Kai-Ming Hu, Yun-Qi Liu, Liang-Wei Zhou, Zhong-Ying Xue, Bo Peng, Han Yan, Zeng-Feng Di, * Xue-Song Jiang, * Guang Meng, Wen-Ming Zhang*. Delamination-free functional graphene surface by multi-scale, conformal wrinkling. Advanced Functional Materials, 2020, **.
(175) Liangwei Zhou#, Kaiming Hu#, Wenming Zhang*, Guang Meng, Jie Yin, Xuesong Jiang*. Regulating surface wrinkles using light. National Science Review, 2020, 7: 1247–1257.
(174) Ge Yan; Sen Wang; Hong-Xiang Zou; Lin-Chuan Zhao; Qiu-Hua Gao; Ting Tan; Wen-Ming Zhang*. Bio-inspired polygonal skeleton structure for vibration isolation: design, modelling, and experiment. Science China Technological Sciences, 2020, 12: 2617–2630.
(173) Lin-Chuan Zhao; Hong-Xiang Zou; Qiu-Hua Gao; Ge Yan; Zhi-Yuan Wu; Feng-Rui Liu; Ke-Xiang Wei; Bin Yang; Wen-Ming Zhang*. Design, modeling and experimental investigation of a magnetically modulated rotational energy harvester for low frequency and irregular vibration. Science China Technological Sciences, 2020, 63: 2051–2062.
(172) Kai-Ming Hu, Peng Bo, Xiu-Yuan Li, Yi-Hang Xin, Xin-Ru Bai, Lei Li and Wen-Ming Zhang*. Resonant nano-electromechanical systems from 2D materials. EPL, 131 (2020) 58001.
(171) Yan G, Zou HX, Yan H, Tan T, Wang S, Zhang WM*, Peng ZK, Meng G. Multi-Direction Vibration Isolator for Momentum Wheel Assemblies. ASME Journal of Vibration and Acoustics, 2020, 142: 041007.
(170) Ge Yan; Hong-Xiang Zou; Sen Wang; Lin-Chuan Zhao; Qiu-Hua Gao; Ting Tan; Wen-Ming Zhang*. Large stroke quasi-zero stiffness vibration isolator using three-link mechanism. Journal of Sound and Vibration, 2020, 478: 115344
(169) Li, W. B., Zhang, W. M.*, Gao, Q. H., Guo, Q. W., Wu, S., Zou, H. X., Yan, H., Peng, Z. K., Meng, G. Electrostatic field induced coupling actuation mechanism for dielectric elastomer actuators. Extreme Mechanics Letters, 2020, 35: 100638.
(168) Guo, X. Y., Li, W. B., Gao, Q. H., Yan, H., Fei, Y., Zhang, W. M*. Self-locking mechanism for variable stiffness rigid-soft gripper. Smart Materials and Structures. 2020, 29: 035033.
(167) Gao, Qiu-Hua; Yan, Ge; Zou, Hong-Xiang; Zhang, Wen-Ming*; Peng, Zhike; Meng, Guang. Density-based Measurement and Manipulation via Magnetic Levitation Enhanced by the Dual-Halbach Array. IEEE Sensors Journal, 2020, 20(4): 1730-1737.
(166) Bo Peng, Kai-Ming Hu, Lei Shao, Han Yan, Lei Li, Xueyong Wei, Wen-Ming Zhang*. A Sensitivity Tunable Accelerometer based on Series-Parallel Electromechanically Coupled Resonators using Mode Localization. IEEE Journal of Microelectromechanical Systems, 2020, 29(1): 3-13.
(165) Tiantian Li, Kaiming Hu, Xiaodong Ma, Wenming Zhang, Jie Yin, Xuesong Jiang. Hierarchical 3D Patterns with Dynamic Wrinkles Produced by a Photocontrolled Diels–Alder Reaction on the Surface. Advanced Materials, 2020, **.
(164) Edmond Q. Wu ; Li-Min Zhu ; Wen-Ming Zhang ; Ping-Yu Deng ; Bo Jia ; Sheng-Di Chen ; He Ren ; Gui-Rong Zhou. Novel Nonlinear Approach for Real-Time Fatigue EEG Data: An In?nitely Warped Model of Weighted Permutation Entropy. IEEE Transactions on Intelligent Transportation Systems, 2020, 21(6): 2437-2448.
(163) Li, L., Zhang, W.M.*, Wang, J., Hu, K., Peng, B., & Shao, M. Bifurcation behavior for mass detection in nonlinear electrostatically coupled resonators. International Journal of Non-Linear Mechanics, 2020, 119: 103366.
(162) Feng-Rui Liu, Wen-Ming Zhang*, Lin-Chuan Zhao, Hong-Xiang Zou, Ting Tan, Zhi-Ke Peng, Guang Meng. Performance enhancement of wind energy harvester utilizing wake flow induced by double upstream flat-plates. Applied Energy, 2020, 257: 114034.
(161) Li, Z., Wen, B., Wei, K., Yang, W., Peng, Z., & Zhang, W. Flexible dynamic modeling and analysis of drive train for Offshore Floating Wind Turbine. Renewable Energy, 2020, 145: 1292-1305.
(2019年度)
(160) Zhao, L. C., Zou, H. X., Gao, Q. H., Yan, G., Liu, F. R., Tan, T., ... & Zhang, W. M*. (2019). Magnetically modulated orbit for human motion energy harvesting. Applied Physics Letters, 115(26), 263902.
(159) Li, Wen-Bo ; Zhang, Wen-Ming*; Zou, Hong-Xiang; Peng, Zhi-Ke; Meng, Guang. Bio-inspired Variable Stiffness Dielectric Elastomer Actuators with Large and Tunable Load Capacity. Soft robotics, 2019, 6(5): 631-643.
(158) Lin-Chuan Zhao, Hong-Xiang Zou, Ge Yan, Feng-Rui Liu, Ting Tan, Ke-Xiang Wei, Wen-Ming Zhang*. Magnetic coupling and flextensional amplification mechanisms for high-robustness ambient wind energy harvesting. Energy Conversion and Management, 2019, 201: 112166.
(157) Hong-Xiang Zou, Lin-Chuan Zhao, Lei Zuo, Feng-Rui Liu, Ting Tan, Ke-Xiang Wei, Wen-Ming Zhang*. Mechanical modulations for enhancing energy harvesting: principles, methods and applications. Applied Energy, 2019, 255: 113871.
(156) Gao, Qiu-Hua; Zhang, Wen-Ming*; Zou, Hong-Xiang; Li, Wen-Bo; Yan, Han; Peng, Zhi-Ke; Meng, Guang. Label-free Manipulation via Magneto-Archimedes Effect: Fundamentals, Methodology and Applications. Materials Horizons, 2019, 6: 1359-1379.
(155) Tan, Ting, Yan, Zhimiao, Zou, Hongxiang, Ma, Kejing, Liu, Fengrui, Zhao, Linchuan, Peng, Zhike, Zhang, Wenming*. Renewable energy harvesting and absorbing via multi-scale metamaterial systems for Internet of things. Applied Energy, 2019, 254(15): 113717.
(154) Feng-Rui Liu, Wen-Ming Zhang*, Zhi-Ke Peng, Guang Meng. Fork-shaped bluff body for enhancing the performance of galloping-based wind energy harvester. Energy, 2019, 183: 92-105.
(153) Hu, K. M., Xue, Z. Y., Liu, Y. Q., Song, P. H., Le, X. H., Peng, B., Yan, H., Di, Z. F., Xie, J., Lin, L. W., Zhang, W. M.* Probing built-in stress effect on the defect density of stretched monolayer graphene membranes. Carbon, 2019, 152: 233-240.
(152) Han Yan, Wen-Ming Zhang*, Hui-Ming Jiang, Kai-Ming Hu, Zhi-Ke Peng, Guang Meng. Fluid-solid vibration of particles in the microchannel resonators and its effect on the mass measurement. Journal of Vibration and Acoustics-Transactions on the ASME, 2019, 141: 041005.
(151) Kai-Ming Hu, Wen-Ming Zhang*, Han Yan, Zhi-Ke Peng and Guang Meng. Nonlinear pull-in instability of suspended graphene-based sensors. EPL, 2019, 125: 20011.
(150) Qiu-Hua Gao, Wen-Bo Li, Hong-Xiang Zou, Han Yan, Zhi-Ke Peng, Guang Meng, Wen-Ming Zhang*. A centrifugal magnetic levitation approach for high-reliability density measurement. Sensors & Actuators: B. Chemical, 2019, 287: 64-70.
(149) Lin-Chuan Zhao, Hong-Xiang Zou, Ge Yan, Feng-Rui Liu, Ting Tan, Wen-Ming Zhang*, Zhi-Ke Peng and Guang Meng. A water-proof magnetically coupled piezoelectric-electromagnetic hybrid wind energy harvester. Applied Energy, 2019, 239: 735–746.
(148) Kai-Ming Hu, Zhong-Ying Xue, Yun-Qi Liu, Hu Long, Bo Peng, Han Yan, Zeng-Feng Di, * Xi Wang, Liwei Lin, Wen-Ming Zhang*. Tension-Induced Raman Enhancement of Graphene Membranes in the Stretched State. Small, 2019, 15: **.
(147) Tan, T., Hu, X., Yan, Z., Zhang, W. Enhanced low-velocity wind energy harvesting from transverse galloping with super capacitor. Energy, 2019, 187: 115915.
(146) Yun-Hua Zhao, Qi-Wei Guo, Song Wu, Guang Meng, Wen-Ming Zhang*. Design and experimental validation of an annular dielectric elastomer actuator for active vibration isolation. Mechanical Systems and Signal Processing, 2019, 134: 106367.
(145) Tan, T., Yan, Z., Zou, Y., Zhang, W. Optimal dual-functional design for a piezoelectric autoparametric vibration absorber. Mechanical Systems and Signal Processing, 2019, 123: 513-532.
(144) Yuyong Xiong ; Zhike Peng ; Wei Jiang ; Qingbo He ; Wenming Zhang ; Guang Meng. An Effective Accuracy Evaluation Method for LFMCW Radar Displacement Monitoring with Phasor Statistical Analysis. IEEE Sensors Journal, 2019, 19: 12224-12234.
(143) Wei, Y., Wei, S., Zhang, Q., Dong, X., Peng, Z., Zhang, W. Targeted energy transfer of a parallel nonlinear energy sink. Applied Mathematics and Mechanics, 2019, 40(5): 621-630.
(142) Lan, J., Zhang, Q., Wei, S., Peng, Z., Dong, X., Zhang, W. Uncertainty quantification for stochastic dynamical systems using time-dependent stochastic bases. Applied Mathematics and Mechanics, 2019, 40(1): 63-84.
(141) Feng-Rui Liu, Han Yan, Wen-Ming Zhang*. Nonlinear dynamic analysis of a photonic crystal nanocavity resonator. Applied Mathematics and Mechanics, 2019, 40(1): 139-152.
(140) Y. Qu, Z. Peng, W. Zhang, G. Meng. Nonlinear vibro-acoustic behaviors of coupled sandwich cylindrical shell and spring-mass-damper systems. Mechanical Systems and Signal Processing, 2019 124: 254-274.
(139) Y. Qu, W. Zhang, Z. Peng, G.Meng. Nonlinear structural-acoustic responses of three-dimensional elastic cylindrical shells with attached internal structures. Applied Acoustics, 2019, 149:143-155.
(138) Peng Zhou, Minggang Du, Shiqian Chen, Qingbo He, Zhike Peng, Wenming Zhang. Study on intra-wave frequency modulation phenomenon in detection of rub-impact fault. Mechanical Systems and Signal Processing 122 (2019) 342–363.
(137) Cheng, C. M., Dong, X. J., Peng, Z. K., Zhang, W. M., & Meng, G. (2019). Kautz basis expansion-based Hammerstein system identification through separable least squares method. Mechanical Systems and Signal Processing, 121, 929-941.
(136) Yang, Y., Peng, Z., Zhang, W., & Meng, G. (2019). Parameterised time-frequency analysis methods and their engineering applications: A review of recent advances. Mechanical Systems and Signal Processing, 119, 182-221.
(135) Chen, S., Yang, Y., Peng, Z., Dong, X., Zhang, W., & Meng, G. (2019). Adaptive chirp mode pursuit: Algorithm and applications. Mechanical Systems and Signal Processing, 116, 566-584.
(134) Liu, Z., He, Q., Chen, S., Dong, X., Peng, Z., & Zhang, W. (2019). Frequency-domain intrinsic component decomposition for multimodal signals with nonlinear group delays. Signal Processing, 154, 57-63.
(133) Chen, S., Yang, Y., Peng, Z., Wang, S., Zhang, W., & Chen, X. Detection of rub-impact fault for rotor-stator systems: A novel method based on adaptive chirp mode decomposition[J]. Journal of Sound and Vibration, 2019, 440: 83-99.
(132) Wen, B., Tian, X., Dong, X., Peng, Z., Zhang, W., & Wei, K. A numerical study on the angle of attack to the blade of a horizontal-axis offshore floating wind turbine under static and dynamic yawed conditions[J]. Energy, 2019, 168: 1138-1156.
(131) Xie, F., Qu, Y., Guo, Q., Zhang, W., Peng, Z. Nonlinear flutter of composite laminated panels with local non-smooth friction boundaries. Composite Structures, 2019, 223: 110934.
(130) Qu Y, Zhang W, Peng Z, Meng G. Time-domain structural-acoustic analysis of composite plates subjected to moving dynamic loads[J]. Composite Structures, 2019, 208: 574-584.
(129) Xie F, Qu Y, Zhang W, Peng Z, Meng G. Nonlinear aerothermoelastic analysis of composite laminated panels using a general higher-order shear deformation zig-zag theory[J]. International Journal of Mechanical Sciences, 2019, 150: 226-237.
(2018年度)
(128) Li, Wen-Bo ; Zhang, Wen-Ming*; Zou, Hong-Xiang; Peng, Zhi-Ke; Meng, Guang. Multisegment annular dielectric elastomer actuators for soft robots. Smart Materials and Structures, 2018, 27: 115024 (13pp).
(127) Honghao Hou, Kaiming Hu, Hongbo Lin, Joe Forth, Wenming Zhang*, Thomas P. Russell*, Jie Yin, Xuesong Jiang*. Reversible Surface Patterning by Dynamic Crosslink Gradients: Controlling Buckling in 2D. Advanced Materials, 2018, 30: **.
(126) Wen-Bo Li, Wen-Ming Zhang*, Hong-Xiang Zou, Zhi-Ke Peng, Guang Meng. A Fast Rolling Soft Robot Driven by Dielectric Elastomer. IEEE/ASME Transactions on Mechatronics, 2018, 23(4): 1630-1640.
(125) Lin-Chuan Zhao, Hong-Xiang Zou, Ge Yan, Wen-Ming Zhang *, Zhi-Ke Peng, Guang Meng. Arbitrary-directional broadband vibration energy harvesting using magnetically coupled flextensional transducers. Smart Materials and Structures, 2018, 27: 095010.
(124) Lu Hu, Han Yan, Wen-Ming Zhang*, Hong-Xiang Zou, Zhi-Ke Peng, Guang Meng. Theoretical and experimental study on dynamic characteristics of V-shaped beams immersed in viscous fluids: from small to finite amplitude. Journal of Fluids and Structures, 2018, 82: 215-244.
(123) Feng-Rui Liu, Hong-Xiang Zou, Wen-Ming Zhang*, Zhi-Ke Peng, Guang Meng. Y-type three-blade bluff body for wind energy harvesting. Applied Physics Letters, 2018, 112, 233903.
(122) Yunhua Zhao, Wen-Bo Li, Wen-Ming Zhang*, Han Yan, Zhi-Ke Peng, Guang Meng. Performance improvement of planar dielectric elastomer actuators by magnetic modulating mechanism. Smart Materials and Structures, 2018, 27: 065007.
(121) Qiu-Hua Gao, Wen-Ming Zhang*, Hong-Xiang Zou, Feng-Rui Liu, Wen-Bo Li, Zhi-Ke Peng, Guang Meng.Tunable rotating-mode density measurement using magnetic levitation. Applied Physics Letters, 2018, 112: 142408.
(120) Hong-Xiang Zou, Wen-Ming Zhang*, Wen-Bo Li, Ke-Xiang Wei, Kai-Ming Hu, Zhi-Ke Peng, Guang Meng. Magnetically coupled flextensional transducer for wideband vibration energy harvesting: design, modeling and experiments. Journal of Sound and Vibration, 2018, 416: 55-79.
(119) Yang, Y., Peng, Z., Dong, X., Zhang, W., & Clifton, D. A. . Component isolation for multi-component signal analysis using a non-parametric gaussian latent feature model. Mechanical Systems and Signal Processing, 2018, 103, 368-380.
(118) Chen, S., Dong, X., Xiong, Y., Peng, Z., Zhang, W. Nonstationary Signal Denoising Using an Envelope-Tracking Filter. IEEE/ASME Transactions on Mechatronics, 2018, 23(4): 2004-2015.
(117) Wei, S., Peng, Z. K., Dong, X. J., & Zhang, W. M. A nonlinear subspace-prediction error method for identification of nonlinear vibrating structures. Nonlinear Dynamics, 2018, 91(3): 1605-1617.
(116) Dong, X., Chen, S., Xing, G., Peng, Z., Zhang, W., & Meng, G. Doppler Frequency Estimation by Parameterized Time-Frequency Transform and Phase Compensation Technique. IEEE Sensors Journal, 2018, 18: 3734-3744.
(115) Wen, B., Dong, X., Tian, X., Peng, Z., Zhang, W., & Wei, K. The power performance of an offshore floating wind turbine in platform pitching motion. Energy, 2018, 154: 508-521.
(114) Zhou, P., Dong, X., Chen, S., Peng, Z., Zhang, W. Parameterized model based Short-time chirp component decomposition[J]. Signal Processing, 2018, 145: 146-154.
(113) Xiong, Y., Peng, Z., Xing, G., Zhang, W., Meng, G. Accurate and Robust Displacement Measurement for FMCW Radar Vibration Monitoring. IEEE Sensors Journal, 2018, 18(3): 1131-1139.
(112) Cheng, C. M., Peng, Z. K., Dong, X. J., Zhang, W. M., & Meng, G. (2018). Nonlinear system identification using Kautz basis expansion-based Volterra–PARAFAC model. Nonlinear Dynamics, 94(3), 2277-2287.
(111) Wei, Y. M., Dong, X. J., Guo, P. F., Peng, Z. K., & Zhang, W. M. (2018). Enhanced Targeted Energy Transfer by Vibro Impact Cubic Nonlinear Energy Sink. International Journal of Applied Mechanics, 10(06), **.
(110) Xiong, Y., Chen, S., Xing, G., Peng, Z., & Zhang, W. (2018). High-precision frequency estimation for FMCW radar applications based on parameterized de-alternating and modified ICCD. Measurement Science and Technology, 29(7), 075010.
(2017年度)
(109)Zou, Hong-Xiang; Zhang, Wen-Ming*; Li, Wen-Bo ; Gao, Qiu-Hua; Wei, Ke-Xiang; Peng, Zhi-Ke; Meng, Guang. Design, modeling and experimental investigation of a magnetically coupled flextensional rotation energy harvester. Smart Materials and Structures, 2017, 26: 115023 (14pp).
(108) Qiu-Hua Gao, Wen-Ming Zhang (*), Hong-Xiang Zou, Wen-Bo Li, Zhi-Ke Peng, Guang Meng. Design and Analysis of A Bistable Vibration Energy Harvester using Diamagnetic Levitation Mechanism. IEEE Transactions on Magnetics, 2017, 53(10): **.
(107) Xin-Qiang Li, Wen-Bo Li, Wen-Ming Zhang (*), Hong-Xiang Zou, Zhi-Ke Peng, Guang Meng. Magnetic force induced tristability for dielectric elastomer actuators. Smart Materials and Structures, 2017, 26(10): 105007(9p).
(106)Wen-Bo Li, Wen-Ming Zhang (*), Hong-Xiang Zou, Zhi-Ke Peng, Guang Meng. A Novel Variable Stiffness Mechanism for Dielectric Elastomer Actuators. Smart Materials and Structures, 2017, 26: 085033(11p).
(105)Zou Hong-Xiang, Zhang Wen-Ming(*), Li Wen-Bo, Wei Ke-Xiang, Gao Qiu-Hua, Peng Zhi-Ke, Meng Guang. Design and experimental investigation of a magnetically coupled vibration energy harvester using two inverted piezoelectric cantilever beams for rotational motion.Energy Conversion and Management, 2017, 148: 1391-1398.
(104)Yan Han, Zhang Wen-Ming(*), Jiang Hui-Ming, Hu Kai-Ming,Hong Fang-Jun, Peng Zhi-Ke, Meng Guang. A Measurement Criterion for Accurate Mass Detection Using Vibrating Suspended Microchannel Resonators. Journal of Sound and Vibration, 2017, 403: 1-20.
(103)Zou Hong-Xiang, Zhang Wen-Ming(*), Li Wen-Bo, Wei Ke-Xiang, Kai-Ming Hu, Peng Zhi-Ke, Meng Guang. A broadband compressive-mode vibration energy harvester enhanced by magnetic force intervention approach. Applied Physics Letters, 2017, 110(16): 502001.
(102)Xin-Ya Jiang, Zou Hong-Xiang, Zhang Wen-Ming(*). Design and analysis of a multi-step piezoelectric energy harvester using buckled beam driven by magnetic excitation. Energy Conversion and Management,2017, 145: 129-137.
(101)Yan Han, Zhang Wen-Ming(*), Jiang Hui-Ming, Hu Kai-Ming. Pull-In Effect of Suspended Microchannel Resonator Sensor Subjected to Electrostatic Actuation. Sensors, 2017, 17: 114.
(100)Wen, B., Tian, X., Dong, X., Peng, Z. K., Zhang, W. M. Influences of surge motion on the power and thrust characteristics of an offshore floating wind turbine. Energy, 2017, 141: 2054-2068.
(99)Xiong, Y., Chen, S., Dong, X., Peng, Z., Zhang, W.. Accurate Measurement in Doppler Radar Vital Sign Detection Based on Parameterized Demodulation. IEEE Transactions on Microwave Theory and Techniques, 2017, 65: 4483-4492.
(98)Xiong, Y., Chen, S., Xing, G., Peng, Z. K., Zhang, W. M. Static clutter elimination for frequency-modulated continuous-wave radar displacement measurement based on phasor offset compensation. Electronics Letters, 2017, 53(22), 1491-1493.
(97)Shiqian Chen, Xingjian Dong, Zhike Peng, Wenming Zhang, Guang Meng. Nonlinear Chirp Mode Decomposition: A Variational Method. IEEE Transactions on Signal Processing, 2017, 65: 6024-6037.
(96) Shiqian Chen, Xingjian Dong, Guanpei Xing, Zhike Peng, Wenming Zhang, Guang Meng. Separation of Overlapped Non-Stationary Signals by Ridge Path Regrouping and Intrinsic Chirp Component Decomposition. IEEE Sensors Journal, 2017, 17: 5994-6005.
(95)XZ Li, XJ Dong, ZK Peng, WM Zhang, G Meng. Local variation detection in MDOF system using wavelet based transmissibility and its application in cracked beam. Journal of Vibration and Control,2017,23(14): 2307-2327.
(94)Chen SQ, Dong XJ, Yhang Y, Zhang WM, Peng ZK, Meng G. Chirplet Path Fusion for the Analysis of Time-Varying Frequency Modulated Signals. IEEE Transactions on Industrial Electronics, 2017, 64(2): 1370-1380.
(93)Chen SQ, Peng ZK, Yang Y, Dong XJ, Zhang WM. Intrinsic chirp component decomposition by using Fourier Series representation. Signal Processing, 2017, 137: 319-327.
(92)Wei, Y. M., Peng, Z. K., Dong, X. J., Zhang, W. M., Meng, G. Mechanism of optimal targeted energy transfer. ASME Journal of Applied Mechanics, 2017, 84(1): 011007.
(91)Zhang, M. W., Wei, S., Peng, Z. K., Dong, X. J., Zhang, W. M. A two-stage time domain subspace method for identification of nonlinear vibrating structures. International Journal of Mechanical Sciences, 2017, 120: 81-90.
(90)Cheng CM, Peng ZK, Zhang WM, Meng G. Volterra-series-based nonlinear system modeling and its engineering applications: A state-of-the-art review. Mechanical Systems and Signal Processing, 2017, 87: 340-364.
(2016年度)
(89)Li Wen-Bo, Zhang Wen-Ming (*), Zou Hong-Xiang, Peng Zhi-Ke, Meng Guang. Asymmetry bistability for a coupled dielectric elastomer minimum energy structure. Smart Materials and Structures, 2016, 25: 115023 (10pp).
(88)Zou Hong-Xiang, Zhang Wen-Ming(*), Wei Ke-Xiang, Li Wen-Bo, Peng Zhi-Ke, Meng Guang. A Compressive-mode Wideband Vibration Energy Harvester Using a Combination of Bistable and Flextensional Mechanisms. ASME Journal of Applied Mechanics, 2016, 83(12): 121005.
(87)Hu Kai-Ming, Zhang Wen-Ming (*), Shi Xi, Yan Han, Peng Zhi-Ke, Meng Guang. Adsorption-induced surface effects on the dynamical characteristics of micromechanical resonant sensors for in-situ real-time detection. ASME Journal of Applied Mechanics, 2016, 83(8), 081009.
(86)Zou Hong-Xiang, Zhang Wen-Ming(*), Wei Ke-Xiang, Li Wen-Bo, PengZhi-Ke, Meng Guang. Design and Analysis of a Piezoelectric Vibration Energy Harvester Using Rolling Mechanism. ASME Journal of Vibration and Acoustics, 2016, 138(5): 051007.
(85)Hu Kai-Ming, Zhang Wen-Ming (*), Peng Zhi-Ke, Meng Guang. Transverse Vibrations of Mixed-Mode Cracked Nanobeams with Surface Effect. ASME Journal of Vibration and Acoustics. 2016,138: 011020.
(84)Zhang Wen-Ming(*), Yan Han, Jiang Hui-Ming, Hu Kai-Ming, Peng Zhi-Ke, Meng, Guang. Dynamics of Suspended Microchannel Resonators Conveying Opposite Internal Fluid Flow: Stability, Frequency Shift and Energy Dissipation. Journal of Sound and Vibration,2016, 368: 103-120.
(83)Yan Han, Zhang Wen-Ming(*), Jiang Hui-Ming, Hu Kai-Ming, Peng Zhi-Ke, Meng Guang. Dynamical characteristics of fluid-conveying microbeams actuated by electrostatic force. Microfluidics and Nanofluidics, 2016, 20: 137.
(82)Zhang Wen-Ming(*), Hu Kai-Ming, Yang Bin, Peng Zhi-Ke, Meng Guang.Effects of surface relaxation and reconstruction on the vibration characteristics of nanobeams. Journal of Physics D: Applied Physics, 2016,49: 165304
(81)Zhang Wen-Ming (*), Yan Han, Peng Zhi-Ke, Meng Guang. Finite Volume Modeling of Gas Flow in Microbearing with Rough Surface Topography. Tribology Transactions,2016, 59(1): 99-107.
(80)Yang, Y., Peng, Z. K., Zhang, W. M., Meng, G., Lang, Z. Q. Dispersion analysis for broadband guided wave using generalized warblet transform. Journal of Sound and Vibration, 2016, 367: 22-36.
(79)Yang Y, Peng Z K, Dong X J, Zhang WM, Meng G. Nonlinear time-varying vibration system identification using parametric time–frequency transform with spline kernel. Nonlinear Dynamics, 2016, 85: 1679-1694.
(78)Deng Y, Cheng CM, Yang Y, Peng ZK, Yang WX, Zhang WM. Parametric Identification of Nonlinear Vibration Systems Via Polynomial Chirplet Transform. ASME Journal of Vibration and Acoustics, 138(5), 051014.
(77)Shiqian Chen, Yang Yang, Kexiang Wei, Xingjian Dong, Zhike Peng, Wenming Zhang. Time-Varying Frequency-Modulated Component Extraction Based on Parameterized Demodulation and Singular Value Decomposition. IEEE Transactions on Instrumentation and Measurement, 2016, 65(2): 276-285.
(76)Zuo-Yang Zhong, Hai-Lian Zhang, Wen-Ming Zhang, Yan Liu. Dynamic analysis of hyperbolic waveguide resonator driven by optical gradient force. Optical Engineering, 2016, 55(8): 081313.
(75)Zuo-Yang Zhong, Jian-Ping Zhou, Hai-Lian Zhang, Wen-Ming Zhang, Guang Meng. Thermoelastic damping in fluid-conveying microresonators. International Journal of Heat and Mass Transfer,2016, 93: 431-440.
(74)Min Lei, Guang Meng, Wenming Zhang, Joshua Wade, Nilanjan Sarkar. Symplectic Entropy as a Novel Measure for Complex Systems. Entropy 2016, 18, 412.
(73)M. W. Zhang, Z. K. Peng, X. J. Dong, W. M. Zhang, G. Meng. Location identification of nonlinearities in MDOF systems through order determination of state-space models. Nonlinear Dynamics, 2016, 84: 1837-1852.
(72)Cheng C M, Peng Z K, Zhang W M, et al. A novel approach for identification of cascade of Hammerstein model. Nonlinear Dynamics, 2016, 86: 513–522.
(2015年度)
(71)W. M. Zhang*, K. M. Hu, Z. K. Peng, G. Meng. Tunable Micro- and Nanomechanical Resonators. Sensors, 2015, 15, 26478-26566.
(70)Z. Y. Zhong, W. M. Zhang*, G. Meng, M. Y. Wang. Thermoelastic damping in the size-dependent microplate resonators based on modified couple stress theory. IEEE Journal Microelectromechanical Systems, 2015, 24(2): 431-445.
(69)H. Yan, W. M. Zhang*, Z. K. Peng, G. Meng. Effect of three-dimensional surface topography on gas flow in rough micronozzles. ASME Journal of Fluids Engineering, 2015, 137: 051202.
(68)K. M. Hu, W. M. Zhang*,X. J. Dong, Z. K. Peng, G. Meng. Scale effect on tension-induced intermodal coupling in nanomechanical resonators. ASME Journal of Vibration and Acoustics, 2015, 137(2): 021008.
(67)H. Yan, W. M. Zhang*, Z. K. Peng, G. Meng. Effect of random surface topography on the gaseous flow in microtubes with an extended slip model. Microfluidics and Nanofluidics,2015, 18: 897-910.
(66)H. Zhou, W. M. Zhang*, Z. K. Peng, G. Meng.Dynamic characteristics of electrostatically actuated microbeams with slant crack. Mathematical Problems in Engineering, vol. 2015, Article ID 208065, 13 pages.
(65)S. Zhang, W. M. Zhang*, Z. K. Peng, G. Meng. Dynamic characteristics of electrostatically actuated shape optimized variable geometry microbeam. Shock and Vibration, Volume 2015, Article ID 867171, 15 pages.
(64)Zhang, M. W., Peng, Z. K.,Dong, X. J., Zhang, W. M., Meng, G. A forward selection reverse path method for spatial location identification of nonlinearities in MDOF systems. Nonlinear Dynamics, 2015, 82(3): 1379-1391.
(63)J. C. Lan, X. J. Dong, Z. K. Peng, W. M. Zhang, G. Meng. Uncertain eigenvalue analysis by sparse grid stochastic collocation method. Acta Mechanica Sinica, 2015,31(4): 545-557.
(62)C. M. Cheng, Z. K. Peng, X. J. Dong, W. M. Zhang, G.Meng. A novel damage detection approach by using Volterra kernel functions based analysis.Journal of the Franklin Institute, 2015, 352(8): 3098-3112.
(61)Y. Yang, X. J. Dong, Z. K. Peng, W. M. Zhang, G. Meng. Component extraction for non-stationary multi-component signal using parameterized de-chirping and band-pass filter. IEEE Signal Processing Letters, 2015, 22(9): 1373-1377.
(60)Y. Yang, X. J. Dong, Z. K. Peng, W. M. Zhang, G. Meng.Vibration signal analysis using parameterized time-frequency method for features extraction of varying-speed rotary machinery. Journal of Sound Vibration, 2015, 335: 350-366.
(2014年度)
(59)W. M. Zhang*, H. Yan, Z. K. Peng, G. Meng. Electrostatic pull-in instability in MEMS/ NEMS-A review. Sensors and Actuators A: Physical, 2014, 214: 187-218.
(58)Z. Y. Zhong, W. M. Zhang*, G. Meng, M. Y. Wang.Thermoelastic damping in opto-waveguide resonators with the bolometric effect Physics Review E 2014, 89: 063203
(57)Z. Y. Zhong, W. M. Zhang*, G. Meng.Frequency shift of nano-waveguides resonator driven by tunable optical gradient force. Journal of the Optical Society of America B, 2014, 31(1): 96-104.
(56)K. M. Hu, W. M. Zhang*, Z. Y. Zhong, Z. K. Peng, G. Meng. Effect of surface layer thickness on buckling and vibration of nonlocal nanowires. Physics Letter A, 2014, 378(7-8): 650-654.
(55)Y. Liu, W. M. Zhang*, Z. Y. Zhong, Z. K. Peng, G. Meng. Nonlinear dynamic analysis of nano-resonator driven by optical gradient force. Acta Phys. Sin., 2014,63(2): 026201.
(54)Y. Yang, Z. K. Peng, X. J. Dong, W. M. Zhang, G. Meng. Application of parameterized time-frequency analysis on multicomponent frequency modulated signals. IEEE Transactions on Instrumentation and Measurement,2014, 63: 3169-3180.
(53)C. M. Cheng, X. J. Dong, Z. K. Peng, W. M. Zhang, G. Meng. Wavelet basis expansion-based spatio-temporal Volterra kernels identification for nonlinear distributed parameter systems. Nonlinear Dynamics, 2014, 78(2): 1179-1192.
(52)C. M. Cheng, Z. K. Peng, X. J. Dong, W. M. Zhang, G. Meng. Locating non-linear components in two dimensional periodic structures based on NOFRFs. International Journal of Non-Linear Mechanics, 2014, 67: 198-208.
(51)X. J. Dong, Z. K. Peng, W. M. Zhang, G. Meng. Connection between Volterra Series and Perturbation Method in Nonlinear Systems Analysis. Acta Mechanica Sincia, 2014, 30: 600-606.
(50)C. M. Cheng, Z. K. Peng, W. M. Zhang, G. Meng.Wavelet basis expansion-based Volterra kernel function identification through multilevel excitations. Nonlinear Dynamics, 2014, 76: 985-999.
(49)X. J. Dong, Z. K. Peng, W. M. Zhang, H. X. Hua, G. Meng. An efficient spectral element model with electric DOFs for the static and dynamic analysis of a piezoelectric bimorph.Mathematical Problems in Engineering, 2014, Article ID 425317, 9 pages.
(48)X. J. Dong, Z. K. Peng, W. M. Zhang, H. X. Hua, G. Meng. Research on Spillover Effects for Vibration Control of Piezoelectric Smart Structures by ANSYS. Mathematical Problems in Engineering, Volume 2014 (2014), Article ID 870940.
(47)Y. Yang, Z. K. Peng, W. M. Zhang, G. Meng. Frequency-varying group delay estimation using frequency domain polynomial chirplet transform. Mechanical Systems and Signal Processing, 2014, 46: 146-162.
(46)Bai HY, Liu X, Li HG, Zhang WM, Meng G, Li M, Wang X. Nonlinear dynamic characteristics of a large-scale tilting pad journal bearing-rotor system. Journal of Vibroengineering, 2014, 16(8): 4045-4064.
(45) Y. Yang, Z. K. Peng, X. J. Dong, W. M. Zhang, G. Meng. General Parameterized Time-Frequency Transform. IEEE Transactions on Signal Processing, 2014, 62(11): 2751-2764.
（2013年度）
(44)W. M. Zhang*, G. Meng, Z.K. Peng. Gaseous slip flow in micro-bearings with random rough surface.International Journal of Mechanical Sciences, 2013, 68: 105-113.
(43)Z. Y. Zhong, W. M. Zhang*, G. Meng, J.Wu. Inclination effects on the frequency tuning of comb-driven resonators. IEEE Journal of Microelectromechanical Systems, 2013,22(4):865-875.
(42)Z. Y. Zhong, W. M. Zhang*, G. Meng. Dynamic Characteristics of Micro-Beams Considering the Effect of Flexible Supports. Sensors,2013, 13(12), 15880-15897.
(41)H. Yan, W. M. Zhang*, K. M. Hu, Y. Liu, G. Meng, Investigation on characteristics of flow in microchannels with random surface roughness. Acta Phys. Sin., 2013,62(17): 174701.
(40)Y. Yang, W. M. Zhang*, Z. K. Peng, G. Meng. Multicomponent Signal Analysis Based on Polynomial Chirplet Transform. IEEE Transactions on Industrial Electronics, 2013, 60(9): 3948-3956.
(39)Z.K. Peng, W. M. Zhang, B.T. Yang,G. Meng, F. L. Chu. The parametric characteristic of bispectrum for nonlinear systems subjected to Gaussian input. Mechanical Systems and Signal Processing, 2013, 36: 456-470.
(38)X.J.Dong,Z. K. Peng,W. M. Zhang, G. Meng, et al. Parametric characteristic of the random vibration response of nonlinear systems. Acta Mechanica Sinica, 2013, 29(2): 267-283.
（2012年度）
(37)W. M. Zhang, G. Meng, X. Y. Wei. A review on slip models for gas microflows. Microfluidics and Nanofluidics, 2012, 13: 845-882.
(36)W. M. Zhang, G. Meng, X. Y. Wei, Z. K. Peng. Slip flow and heat transfer in microbearings with fractal surface topographies. International Journal of Heat and Mass Transfer, 2012,55: 7223-7233.
(35)W. M. Zhang, G. Meng, Z. K. Peng, D. Chen. Coupled nonlinear effects of random surface roughness and rarefaction on slip flow in ultra-thin film gas bearing lubrication. ASME Journal of Tribology, 2012, 134: 024502.
(34)W. M. Zhang, G. Meng, X. Y. Wei, Z. K. Peng. Effect of surface roughness on rarefied-gas heat transfer in microbearings. Physics Letter A, 2012, 376： 789-794.
(33)Z.Y. Zhong, S. J. Liu, W.M. Zhang*, G. Meng. Dynamics of carbon nanotubes mass detection involving phonon-tunneling dissipation.Micro & Nano Letter, 2012,7: 1246-1250.
(32)K. X. Wei, W. M. Zhang, P. Xia, Y. Liu. Nonlinear dynamics of an electrorheological sandwich beam with rotary oscillation. Journal of Applied Mathematics, 2012,(2012), Article ID 659872, doi:10.1155/2012/659872.
(31)Z. K. Peng, G. Meng, Z. Q. Lang, W. M. Zhang, F. L. Chu. Study of the effects of cubic nonlinear damping on vibration isolations using Harmonic Balance Method. International Journal of Non-linear Mechanics,2012, 47:1073–1080
(30)Z. K. Peng, W. M. Zhang, Z. Q. Lang, G. Meng, F. L. Chu. Time-frequency data fusion technique with application to vibration signal analysis. Mechanical Systems and Signal Processing,2012,29: 164-173.
(29)W. M. Zhang, G. Meng,K. X. Wei. Numerical prediction of surface roughness effect on slip flow in gas-lubricated journal microbearings. Tribology Tranactions, 2012,55:71-76.
(28)Y. Yang, Z. K. Peng, G. Meng, W. M. Zhang. Characterize highly oscillating frequency modulation using generalized Warblet transform. Mechanical Systems and Signal Processing, 2012, 26: 128-140.
(27)Y. Yang, Z. K. Peng, G. Meng, W. M. Zhang. Spline-Kernelled chirplet transform for the analysis of signals with time-varying frquency and its application. IEEE Transactions on Industrial Electronics, 2012, 59(3): 1612-1621.
（2011年度）
(26)W. M. Zhang, G. Meng, Z. K. Peng. Nonlinear dynamic analysis of atomic force microscopy under bounded noise parametric excitation. IEEE/ASME Transactions on Mechatronics, 2011, 16(6): 1063-1072.
(25)Z. K. Peng, G. Meng, F. L. Chu, Z. Q. Lang, W. M. Zhang, Y. Yang. Polynomial chirplet transform with application to instantaneous frequency estimation. IEEE Transaction on Instrumentation and Measurement, 2011, 60(9): 3222-3229.
(24)W. M. Zhang, O. Tabata, T. Tsuchiya, G. Meng. Noise-induced chaos in the electrostatically actuated MEMS resonators.Physics Letters A, 2011, 375: 2903-2910.
(23)W. M. Zhang, J. B. Zhou, G. Meng. Performance and stability analysis of gas-lubricated journal bearings in MEMS. Tribology International, 2011, 44: 887-897.
（2010年度）
(22)W. M. Zhang, G. Meng, K. X. Wei. Nonlinear dynamics of the electrostatically actuated MEMS resonators under two-frequency parametric and external excitations. Shock and Vibration. 2010, 17(4): 759-770.
(21)W. M. Zhang, G. Meng, Z. K. Peng.Random surface roughness effect on slider microbearing lubrication. Micro & Nano Letters, 2010, 5(5): 347-350.
（2009年度）
(20)W. M. Zhang, G. Meng. Property analysis of the rough slider bearings in micromotors for MEMS applications. IEEE/ASME Transaction on Mechatronics, 2009, 44(1): 465-473.
(19)W. M. Zhang, G. Meng, J. B. Zhou, J. Y. Chen. Slip model for the molecular gas film lubrication of the slider bearing in a micromotor. Microsystem Technologies, 2009, 15: 953-961.
(18)W. M. Zhang, G. Meng, J. B. Zhou, J. Y. Chen. Nonlinear dynamics and chaos of microcantilever-based TM-AFM with squeeze film damping effects. Sensors, 2009, 9(5): 3854-3874.
(17)G. Meng, W. M. Zhang, H. Huang, H. G. Li, D. Chen. Micro-rotor dynamics for micro-electro-mechanical systems (MEMS). Chaos, Solitons and Fractals, 2009, 40(2): 538-562.
(16)J. Y. Chen, J. B. Zhou, G. Meng, W. M. Zhang. Evaluation of eddy-current effects on diamagnetic bearings for micorsystems. IEEE Transactions on Industrial Electronics, 2009, 56(4): 964-972.
(15)J. B. Zhou, J. Y. Chen, G. Meng, W. M. Zhang. Scale dependent analysis of sliding wear between the bushing and the ground plane in micromotors. Archive of Applied Mechanics, 2009, 79: 301-310.
(14)J. B. Zhou, J. Y. Chen, G. Meng, W. M. Zhang. Bifurcation analysis of ultra-short self-acting gas journal bearings for MEMS. IEEE Transactions on Industrial Electronics, 2009, 56: 3188-3194.
（2008年度）
(13)W. M. Zhang, G. Meng, D. Chen, J. B. Zhou, J. Y. Chen. Nonlinear dynamics of a rub-impact micro-rotor system with scale-dependent friction model. Journal of Sound and Vibration, 2008, 309(3-5): 756-777.
(12)W. M. Zhang, G. Meng, H. Huang, J. B. Zhou, J. Y. Chen. Characteristics analysis and dynamic responses of micro gas-lubricated journal bearings with a new slip model. Journal of Physics D: Applied Physics, 2008, 41(15): 155305 (16pp).
(11)K. X. Wei, G. Meng, W. M. Zhang. Experimental investigation on vibration characteristics of sandwich beams with magnetorheological elastomers.Journal of Central South University of Technology, 2008, 15: 239-242.
（2007年度）
(10)W. M. Zhang, G. Meng. Nonlinear dynamic analysis of electrostatically actuated resonant MEMS sensors under parametric excitation. IEEE Sensors Journal, 2007, 7(3): 370-380.
(9)K. X. Wei, G. Meng, W. M. Zhang, S. Zhou. Vibration characteristics of rotating sandwich beams filled with electrorheological fluids. Journal of Intelligent Material Systems and Structures, 2007, 18(11): 1165-1173.
(8)W. M. Zhang, G. Meng, D. Chen. Stability, nonlinearity and reliability of electrostatically actuated MEMS devices. Sensors, 2007, 7(5): 760-796.
（2006年度）
(7)W. M. Zhang, G. Meng. Numerical simulation of sliding wear between the rotor bushing and ground plane in micromotors. Sensors and Actuators A: Physical, 2006, 126(1):15-24.
(6)W. M. Zhang, G. Meng. Stability, bifurcation and chaos analyses of a high-speed micro-rotor system with rub-impact. Sensors and Actuators A: Physical, 2006, 127(1): 163-178.
(5)W. M. Zhang, G. Meng, H. G. Li. Adaptive vibration control of micro-cantilever beam with piezoelectric actuator in MEMS. International Journal of Advanced Manufacturing Technology, 2006, 28(3-4): 322-327.
(4)W. M. Zhang, G. Meng. Friction and wear study of the hemispherical rotor bushing in a variable capacitance micromotor. Microsystem Technologies, 2006, 12(4): 283-292.
（2005年度）
(3)W. M. Zhang, G. Meng, H. G. Li. Electrostatic micromotor and its reliability. Microelectronics Reliability, 2005, 45(7-8): 1230-1242.
(2)W. M. Zhang, G. Meng. Contact dynamics between the rotor and bearing hub in a micromotor. Microsystem Technologies, 2005, 11(6): 438–443.
(1)W. M. Zhang, G. Meng. Nonlinear dynamical system of micro-cantilever under combined parametric and forcing excitations in MEMS. Sensors and Actuators A: Physical, 2005, 119(2): 291-299.
【中文期刊论文】
[19] 闫寒, 张文明. 微纳通道谐振器测量与表征中的动力学问题研究. 力学进展，2019, 49: 201903. 【特邀综述】
[18] 胡璐, 闫寒, 张文明, 彭志科, 孟光. 黏性流体环境下 V 型悬臂梁结构流固耦合振动特性研究. 力学学报, 2018, 50(3): 643-653.
[17] 张文明, 闫寒, 彭志科, 孟光. 微纳机械谐振器能量耗散机理研究进展. 科学通报, 2017, 62(19): 2077-2093.【特邀综述】
[16] 李源霜, 李汶柏, 张文明. 大型椭圆振动筛空心裂纹转轴非线性振动特性分析. 噪声与振动控制, 2016, 36(2): 46-51.
[15] 张厦, 张文明. 微机械谐振器可变锚点结构能量耗散特性分析. 噪声与振动控制, 2015, 35(5): 39-42.
[14] 刘素娟, 齐书浩, 张文明. 静电驱动裂纹微悬臂梁结构振动特性分析. 振动与冲击, 2013, 32(17): 41-45.
[13] 齐书浩, 刘素娟, 张文明. 低雷诺数下微型四旋翼飞行器气动和振动特性分析. 噪声与振动控制, 2013, 33(5): 53-57.
[12] 彭志科, 孟光, 张文明. Volterra级数与摄动法的内在关系研究. 中国科学 物理学力学天文学 (中文版), 2013, 43: 494-499.
[11] 邓杨, 彭志科, 杨扬, 孟光. 基于参数化时频分析的非线性振动系统参数辨识. 力学学报, 2013, 45(6): 992-996.
[10] 张文明, 孟光. 随机表面粗糙度对 MEMS 径向气体轴承性能的影响. 振动工程学报, 2012, 25(1): 60-63.
[9] 魏克湘, 孟光, 张文明. 基础简谐激励下匀速旋转运动电流变夹层梁的振动稳定性. 振动与冲击, 2011, 30(4): 42-46.
[8] 张文明 孟光 魏克湘. 参数激励下静电驱动微机电系统动力特性研究. 力学学报, 2009, 41(2): 282-288.
[7] 张文明, 孟光, 周健斌, 陈杰宇. 参数激励下静电驱动MEMS共振传感器的非线性动力特性研究. 力学季刊, 2009, 30: 44-48.
[6] 张文明, 孟光, 陈迪. 微转子系统径向气体轴承特性. 机械工程学报, 2008, 44(5): 25-33.
[5] 张文明, 孟光, 陈迪. 微型旋转机械轴承研究进展. 振动与冲击, 2008, 27(5): 27-31.
[4] 周健斌, 孟光, 张文明. 微机电系统径向气体轴承特性研究. 振动与冲击, 2007, 26(9): 30-33.
[3] 张文明, 孟光. 超高速微转子系统磨损特性的研究. 摩擦学学报, 2006, 26(2): 155-158.
[2] 张文明, 孟光. 微机电系统磨损特性研究进展. 摩擦学学报, 2005, 25(5): 489-494.
[1] 张文明, 孟光. 静电微电机微转子接触动力学特性分析. 力学学报, 2005, 37(6): 756-763.
【专著手册】
1、孟光, 张文明.《微机电系统动力学》, 北京: 科学出版社, 2008, 42余万字. (科学出版基金资助)
2、孟光, 张文明, 等. 《动力学、振动与控制新进展》, 北京: 宇航出版社, 2006. (章节, 5余万字)
3、张文明, 孟光, 等. Models and Applications of Chaos Theory in Modern Sciences, 2011, Science Publishers. (章节)
4、张文明. 轴和轴系的临界转速. 《现代机械设计手册》, 2011，北京：化工出版社. (章节, 6余万字)

教学工作 1、《机械动力学与振动学》 本科生，48学时，3学分
2、《静力学与动力学基础》本科生，48学时，3学分
3、《机械工程前沿》 硕士生，36学时，2学分
4、《振动冲击噪声现代理论》 博士生，54学时，3学分
5、《转子动力学》研究生，48学时，3学分

软件版权登记及专利 【国家发明专利】
[60] 高秋华，张文明；基于抗磁悬浮原理的流式缺陷检测方法；申请号：00；申请公布日：2020.12.25
[59] 罗斌；陈鸣亮;?欧红旗;?张文明;?郭欣宇;?刘丰瑞;?常世杰;?秦凯;?郑权;?杨颜志;?徐清华；一种舱门展开力矩自动测量系统；申请号：73；申请公布日：2020.10.30
[58] 赵林川；张文明;?高秋华;?颜格;?魏克湘;?何清波;?邹鸿翔；适应复杂激励的无接触传动摩擦-电磁复合波浪能量采集器；申请号：20；申请公布日：2020.09.18
[57] 邹鸿翔；李猛;?张文明;?魏克湘；背戴式四驱人体运动能量采集装置及人体增强装备；申请公布日：2020.11.06
[56]胡开明；张文明;?李修远;?辛宜航;?白欣茹；基于大面积修复薄膜转移-加热治愈的微纳米褶皱祛除方法；申请公布日：2020.10.23
[55]胡开明；张文明;?彭勃;?闫寒；界面可控型无分层式多层级石墨烯共形褶皱及其制备方法；申请号：41；申请公布日：2020.08.07
[54]邹鸿翔；李猛;?魏克湘;?杜荣华;?张文明;?朱云;?文雷;?廖思华；适合脉冲式激励的电磁-摩擦复合路面能量采集器；申请公布日：2020.10.20
[53] 郭欣宇;?张文明;?费燕琼；自适应干性吸附-脱附功能化气动柔性抓手；申请号：03；申请公布日：2020.10.09
[52] 高秋华，张文明；动态抗磁悬浮多维度密度测量装置及方法；申请号：0.9；申请公布日：2020.07.17
[51] 赵林川；张文明;?高秋华;?颜格;?魏克湘;?何清波;?邹鸿翔；一种升频式电磁-摩擦串联复合波浪能量采集系统；申请号：20**；申请公布日：2020.09.18
[50] 王江北；费燕琼;?刘朝雨;?刘佳鹏;?张文明；一种仿生软体翻滚机器人；申请号：20**；申请公布日：2020.02.11
[49] 罗斌；欧红旗;?张文明;?陈鸣亮;?郑权;?郭欣宇;?刘丰瑞;?常世杰;?秦凯;?杨颜志;?徐清华；舱门展开力矩自动测量装置； 申请号：20**；申请公布日：2020.10.23
[48] 郭欣宇，张文明；真空吸附式锁定关节的气动软体抓手； 申请号：20**；申请公布日：2020.02.14
[47] 郭欣宇，张文明，李汶柏；弯曲型变刚度自传感式气动软体驱动器；申请号：20**；申请公布日：2020.02.21
[46] 李支康，赵立波，李杰，郭帅帅，胡开明，张文明，徐廷中，赵一鹤，刘子晨，蒋庄德；一种电极形状调控的高超声波收发性能CMUTs； 申请号：20**；申请公布日：2019.11.12
[45] 张文明，高秋华；海尔贝克阵列式磁悬浮密度测量的方法及装置；申请号：20**；申请公布日：2019.09.27
[44] 邹鸿翔，赵林川，张文明 等；具有频率和位移放大作用的小型风能采集器；申请号:20**；授权公告日：2020.03.17
[43] 魏克湘，邹鸿翔，白泉，张文明，等；一种智慧型海上风电运维船结构；申请号：20**；申请公布日：2019.09.17
[42] 邹鸿翔，魏克湘，赵林川，张文明，等；磁场耦合波浪能量采集器；申请号：20**；申请公布日：2019.08.09；授权公告日：2020.08.18
[41] 彭勃，张文明，胡开明，闫寒；可调灵敏度的弱耦合谐振式微加速度计；申请号：20**；申请公布日：2020.02.11
[40] 张文明，李汶柏，郭欣宇；自锁式刚软耦合机械抓手；申请号：20**；申请公布日：2019.06.21
[39] 郭欣宇，张文明，李汶柏；变刚度内骨骼刚软耦合机械手指；申请号：9.0；申请公布日：2019.03.19
[38] 张文明，邹鸿翔，颜格，王森；基于PVC Gel的自反馈三稳态变刚度微振动隔振装置；申请号：20**；授权公告日：2020.02.18
[37] 张文明，李汶柏，闫寒；基于人工肌肉的柔性抓手；申请号：6.3；申请公布日：2018.11.23
[36] 李汶柏，张文明，闫寒；基于人工肌肉的括约肌假体；申请号：7.8；授权公告日：2020.12.01
[35] 李汶柏，张文明; 基于介电弹性体的自主滚动软体机器人；申请号：20**；申请公布日：2018.09.11
[34] 李汶柏，张文明; 基于介电弹性体的可调刚度支撑装置; 申请号：20**; 授权公告日：2020.02.18
[33] 李汶柏，张文明，赵云花；介电弹性体主动隔振空气弹簧；申请号：1.3；申请公布日：2018.09.04
[32] 赵林川，张文明，邹鸿翔；一种面内压电振动能量采集器；申请号：20**；申请公布日：2018.06.01；授权公告日：2019.07.26
[31] 刘丰瑞，张文明，胡璐；磁力边界约束增强的宽速域压电式风能采集器；申请号：4.6；授权公告日：2019.06.18
[30] 颜格，张文明, 李汶柏；多向蠕动软体机器人；申请号：6.9；授权公告日：2020.11.26
[29] 胡开明，张文明，闫寒；基于褶皱形成原理的石墨烯力学性能同步表征实现方法；申请号：1.6；申请公布日：2018.01.19；授权公告日：2020.06.09
[28] 赵林川，张文明，邹鸿翔；宽速度域磁力耦合压电风能采集器；申请号：5.8；授权公告日：2019.08.23
[27] 张文明, 李汶柏, 邹鸿翔, 闫寒；介电弹性体机械腕关节；申请号：4.3；申请公布日：2017.09.08；授权公告日：2020.06.09
[26] 高秋华, 张文明, 胡璐, 邹鸿翔；基于抗磁悬浮原理的离心式密度测量装置及方法；专利号：7.5；2017.12.15；授权公告日：2019.05.22
[25] 李汶柏，张文明, 赵林川, 刘丰瑞；双向多稳态介电弹性体驱动器；专利号：ZL5.4；授权公告日：2019.01.10
[24] 李汶柏, 张文明, 颜格, 邹鸿翔；冲击增强型介电弹性体振动器；ZL4.8; 申请日：2017.11.21；授权公告日：2019.05.21
[23] 张文明，邹鸿翔，魏新生，王森，赵林川，颜格；惯性执行机构刚柔耦合微振动隔振装置；ZL9.4；授权公告日：2018.06.21
[22] 邹鸿翔，胡璐，张文明；基于仿生鱼的流致振动能量采集装置；ZL5.1；授权公告日：2018.06.21
[21] 邹鸿翔，李汶柏，张文明，魏克湘，孟光；多向磁拉式双稳态振动能量俘获器；ZL5.1；授权公告日：2018.07.02
[20] 李鑫强，张文明，李汶柏；磁力式多稳态介电弹性体换能器；ZL8.9；授权公告日：2018.05.25
[19] 高秋华，张文明，邹鸿翔；抗磁悬浮双稳态振动能量俘获器；ZL5.7；授权公告日：2018.11.26
[18] 张文明，邹鸿翔，孟光；振幅放大叠加振动能量采集装置；ZL8.7；授权公告日：2018.05.25
[17] 张文明，邹鸿翔，孟光；基于振动加载装置的振动测试系统及其方法；6.3；2016.05.25
[16] 邹鸿翔，李源霜，张文明，汪炜涛，孟光；多频耦合振动能量俘获器；20**；2015.10.27
[15] 张文明，邹鸿翔，孟光；半主动调频振动能量俘获器；20**；2015.11.02；授权号：CNA
[14] 李汶柏，张文明，邹鸿翔，孟光；双稳态电气连接转换装置；3X；2015.03.09；授权号：CNB
[13] 李汶柏，张文明，邹鸿翔；条形工件表面缺陷全方位视觉在线检测系统；20**；2015.03.09；授权号：CNB
[12] 邹鸿翔，张文明，孟光，魏克湘；自发电防雾霾空气过滤装置；20**；2015.01.28；授权号：CNB
[11] 邹鸿翔，张文明，魏克湘，孟光；基于双稳态的无接触磁力式振动能量俘获器；20**；授权号：CNB
[10] 蒋新雅，张文明，邹鸿翔，孟光；压电俘能与主动减振集成装置；20**；2015.02.02；授权号：CNB
[9] 李汶柏，张文明，邹鸿翔；基于双稳态结构的电子设备姿态调整器；20**；2015.01.19；授权号：CNB
[8] 邹鸿翔，张文明，魏克湘，胡开明，闫寒；一种自供能智能运动鞋；20**；2014.12.27；授权号：CNB
[7] 邹鸿翔，张文明，魏克湘；一种用于汽车悬架的滚动压迫俘能装置；20**；2014.12.01
[6] 刘付远, 张文明, 闫寒. 一种环隙式纳米砂磨机；CNA；2014.04.03
[5] 闫寒，张文明；复杂几何边界下微流体器件中气体滑移流动的计算方法；20**；2014.12.01；授权号：CNB
[4] 仲作阳，孟光，张文明，荆建平，李明，何淑芬；基于Modelica语言的泵车臂架系统仿真建模方法；68；2011.12.29
[3] 魏克湘，邹鸿翔，杜荣华，张文明；自供能智能减振器；ZL20**；申请时间：2013.09.29，授权公布日：2015.07.29
[2] 魏克湘，孟光，张文明；基于挤压式受力的磁流变弹性体主被动一体减振器；ZL21；授权公布日：2009.10.21
[1] 张文明，孟光，李鸿光，陈迪，周键斌；非接触式微转子振动位移的激光测量方法；ZL34；授权公布日：2009.08.05
【软件版权登记】
1、泵车负载敏感型比例多路滑阀仿真建模软件1.0（计算机软件，No.**，2011年）
2、泵车臂架系统动力学建模仿真软件（计算机软件，No.**，2011年）
3、汽车起重机变幅机构动力学建模仿真软件1.0（No.** ,2011年）

学术兼职 【期刊编委】
《动力学与控制学报》，编委
《固体力学学报》，编委
《力学季刊》，编委
《Applied Sciences》，编委
《Active and Passive Electronic Components》，编委
《Sensors & Transducers Journal》，编委
《Journal of Sensor Technology》，编委
【学术团体】
中国微米纳米技术学会微纳执行器与微系统分会，副理事长
中国力学学会对外交流与合作委员会，副主任
中国力学学会动力学与控制专业委员会，秘书长
中国力学学会青年工作委员会，委员
中国机械工程学会微纳制造技术分会，常务委员
中国振动工程学会，理事
中国振动工程学会非线性振动专业委员会，委员
中国振动工程学会转子动力学专业委员会，常务理事
中国振动工程学会包装动力学专业委员会青年分会，副主任
上海市力学学会，理事
上海市力学学会动力学与控制专业委员会，委员
ASME结构与系统动力学及控制（DCSS）技术委员会，委员
美国电气和电子工程师协会(IEEE)，会员
中国机械工程学会，高级会员
汽车动力与传动系统湖南省重点实验室学术委员会，委员
现代设计及转子轴承系统教育部重点实验室学术委员会，委员

荣誉奖励 【人才计划】
上海市青年优秀学术带头人（2019）
国家创新人才推进计划“中青年科技创新领军人才”（2018）
国家****科学基金获得者（2016）
教育部霍英东青年教师基金获得者（2014）
上海市曙光****（2014）
国家优秀青年科学基金获得者（2013）
国家“****”-中组部青年拔尖人才（2013）
上海市青年科技启明星计划（2011）
【奖励与荣誉称号】
2018年 上海市青年五四奖章（标兵）
2015年 教育部自然科学一等奖 （排名第2）
2011年 全国振动理论及应用学术会议优秀论文奖
2010年 中国振动工程学会青年科技奖
2010年 日本学术振兴会(JSPS)奖学金
2009年 全国优秀博士学位论文提名奖
2008年 上海市优秀博士学位论文
2006年 上海市优秀毕业生
2005年 国际机械工程与力学学术会议ICMEM优秀论文奖
2020年 上海交通大学唐立新教学名师奖
2020年 上海交通大学校级教学成果奖一等奖
2019年 上海交通大学机动学院最佳导师奖
2018年 上海交通大学机动学院最受欢迎教师奖
2018年 上海交通大学优秀博士论文导师奖
2017年 上海交通大学唐立新优秀****奖
2017年 上海交通大学优秀教师奖
2016年 上海交通大学优秀班主任
2016年 上海交通大学十佳班主任
2016年 上海交通大学机动学院最受欢迎教师奖
2012年 上海交通大学晨星青年****奖励计划(A类)
2010年 上海交通大学优秀教师奖
2009年 上海交通大学晨星青年****奖励计划(B类)