姓名:陆泽琦
办公室:延长校区(力学所325室)
通信地址:上海市延长路149号力学所,邮编:200072
电子邮件:luzeqi@shu.edu.cn;电话:+86-18521762968
【工作经历】(按照倒序书写)
2018/01 至今,上海大学,力学与工程科学学院,副研究员/博士生导师
2017/01-2017/12,上海大学,力学与工程科学学院,讲师
【教育经历】(按照倒序书写)
2014/11-2016/12,上海大学,上海市应用数学和力学研究所,一般力学 博士后
2008/09-2014/10,哈尔滨工程大学,动力与能源工程学院,轮机工程 工学博士
2004/09-2008/07,哈尔滨工程大学,动力与能源工程学院,热能与动力工程 工学学士
【研究方向】
振动系统非线性设计与调控
高分辨率半导体设备振动主动控制
【发表论文】
发表SCI论文60余篇,高被引论文9篇,他引近3000次。
[1] Ze-Qi Lu, Long Zhao, Hai-Ling Fu, Eric Yeatman, Hu Ding, Li-Qun Chen, Ocean wave energy harvesting with high energy density and self-powered monitoring system, Nature Communications, 2024, 15(1): 6513.
[2] Long Zhao, Ze-Qi Lu, Fei-Yang Zhang, Hai-Ling Fu, Hu Ding, Li-Qun Chen, Rotational nonlinear energy harvesting via an orthogonal dual-beam. Mechanical Systems and Signal Processing, 2024,211:111248.
[3] Yuan-Suo Zhang, Feng Hou, Ze-Qi Lu, Hu Ding, Li-Qun Chen, Analytical and experimental study of thermoplastic ployurethame inclined beam isolator with quasi-zero stiffness and fractional derivative damping, Mechanical Systems and Signal Processing, 2025, 224: 111962.
[4] Ze-Qi Lu, Rong-Biao Hao, Dao Wu, Hu Ding, Li-Qun Chen, An investigation of a self-powered low-frequency nonlinear vibration isolation system, Engineering Structures, 2024, 315: 118395.
[5] Long Zhao, Ze-Qi Lu, Hu Ding, Li-Qun Chen, A viscoelastic metamaterial beam for integrated vibration isolation and energy harvesting, Applied Mathematics and Mechanics (English Edition), 2024, 45(7): 1243-1260.
[6] Ying Meng, Ze-Qi Lu, Hu Ding, Li-Qun Chen, Plate theory based modeling and analysis of nonlinear piezoelectric composite circular plate energy harvesters. Nonlinear Dynamics, 2024,112: 5129–5149.
[7] Ze-Qi Lu, Xing-Yu Chen, Dong-Dong Tan, Hu Ding, Li-Qun Chen, A hybrid linear dynamic absorber and nonlinear energy sink for broadband absorption of a circular ring. Nonlinear Dynamics, 2024,112: 903–923.
[8] Ze-Qi Lu, Rong-Biao Hao, Hu Ding, Li-Qun Chen, A study of a nonlinear vibration isolator supported on an imperfect boundary plate. Communications in Nonlinear Science and Numerical Simulation, 2024,128: 107671.
[9] Yu Xiao, Ze-Qi Lu, Nan Wu, Development and analysis of magnet-engaged piezoelectric energy generator under friction-induced vibration. International Journal of Non-Linear Mechanics, 2024,158:104560.
[10] Ze-Qi Lu, Liang Z, Zhu L-P, Ding H, Chen L-Q. An investigation of active enclosed-space noise control with a nonlinear loudspeaker. Journal of Vibration and Control, 2024, 30(1-2): 392-405.
[11] Yi-Ni Yang, Ming-Song Zou, Ze-Qi Lu, Zhi-Yong Yin, Qiang Xi, Effective method for calculating acoustic radiation of an underwater target with a complex isolation system, Applied Acoustics, 2025, 231: 110534.
[12] Jun Liu, Ze-Qi Lu, Min Wang, Hua-Yan Pu, Yi Sun, Ji-Heng Ding, Yan Peng, Shao-Rong Xie, Jun Luo, A tunable electromagnetic nonlinear energy sink, Chaos, Solitons and Fractals, 2024, 188: 115453.
[13] Wen-Ju Han, Mu-Qing Niu, Jian-Guo Cui, Ze-Qi Lu, Li-Qun Chen, A low-frequency vibration isolator with cross-ring structure, International Journal of Sturcture Stability and Dynamics, 2024, 24(18): 2450203.
[14] Ze-Qi Lu, Jie Chen, Hai-Ling Fu, Hu Ding and Li-Qun Chen, Nonlinear energy harvesting via an axially moving piezoelectric beam with both d31 and d33 modes. Journal of Physics D-Applied Physics, 2023, 56: 445502.
[15] Rong-Biao Hao, Ze-Qi Lu, Hu Ding, and Li-Qun Chen, Shock Isolation of an Orthogonal Six-DOFs Platform With High-Static-Low-Dynamic Stiffness. ASME Journal of Applied Mechanics, 2023; 90(11): 111004.
[16] Yu Xiao, Wen-Hang Liu, Ze-Qi Lu, Nan Wu. Numerical investigation of nonlinear shear-mode piezoelectric energy generation under permanent magnetic conditions. Nonlinear Dynamics, 2023, 111, 18779–18817.
[17] Zhong Liang, Ze-Qi Lu, Hu Ding, Li-Qun Chen, Active acoustic insulation system with quasi-zero stiffness supported nonlinear moving-coil diaphragm. Mechanical Systems and Signal Processing, 2023, 200:110642,
[18] Li-Fang Lin, Ze-Qi Lu, Long Zhao, Yi-Sheng Zheng, Hu Ding, Li-Qun Chen, Vibration isolation of mechatronic metamaterial beam with resonant piezoelectric shunting. International Journal of Mechanical Sciences, 2023, 254:108448,
[19] Wen-Ju Han, Ze-Qi Lu, Mu-Qing Niu, Li-Qun Chen, Analytical and experimental investigation on a NiTiNOL circular ring-type vibration isolator with both stiffness and damping nonlinearities. Journal of Sound and Vibration, 2023, 547: 117543.
[20] Wen-Hang Liu, Ze-Qi Lu, Rong-Biao Hao, Hu Ding, Li-Qun Chen, Transverse vibration of axially loaded beam with parallel-coupled nonlinear isolators, Mechanical Systems and Signal Processing, 2023, 188: 110008.
[21] Ze-Qi Lu, Wen-Hang Liu, Hu Ding, Li-Qun Chen, Energy transfer of an axially loaded beam with a parallel with a parallel-coupled nonlinear vibration isolator, ASME Journal of Vibration and Acoustics, 2022, 144(5): 051009.
[22] Wen-Ju Han, Ze-Qi Lu, Mu-Qing Niu, Li-Qun Chen. A high-static-low-dynamics stiffness vibration isolator via an elliptical ring. Mechanical Systems and Signal Processing, 2022, 162(3):108061.
[23] Rong-Biao Hao, Ze-Qi Lu, Hu Ding, Li-Qun Chen, Orthogonal six-DOFs Vibration isolation with tunable high-static-low-dynamic stiffness: Experiment and analysis. International Journal of Mechanical Sciences, 2022,222:107237.
[24] Rong-Biao Hao, Ze-Qi Lu, Hu Ding, Li-Qun Chen, A nonlinear vibration isolator supported on a flexible plate: analysis and experiment. Nonlinear Dynamics, 2022, 108(2): 941-958.
[25] Long Zhao, Ze-Qi Lu, Hu Ding, Li-Qun Chen, Experimental observation of transverse and longitudinal wave propagation in a metamaterial periodically arrayed with nonlinear resonators, Mechanical Systems and Signal Processing, 2022, 170: 108836.
[26] Ze-Qi Lu, Fei-Yang Zhang, Hai-Ling Fu, Hu Ding, Li-Qun Chen, Rotational nonlinear double-beam energy harvesting. Smart Materials and Structures, 2022, 31: 025020
[27] Ze-Qi Lu, Jie Chen, Hu Ding, Li-Qun Chen, Energy harvesting of a fluid-conveying piezoelectric pipe, Applied Mathematical Modelling, 2022, 107: 165-181.
[28] Ze-Qi Lu, Dong-Hao Gu, Hu Ding, Walter Lacarbonara, Li-Qun Chen, A ring vibration isolator enhanced by shape memory pseudoelasticity. Applied Mathematical Modelling, 2021, 100, 1-15.
[29] Ze-Qi Lu, Long Zhao, Hu Ding, Li-Qun Chen, A dual-functional metamaterial for integrated vibration isolation and energy harvesting. Journal of Sound and Vibration, 2021, 509, 116251
[30] Dong-Dong Tan, Ze-Qi Lu, Dong-Hao Gu, Hu Ding, Li-Qun Chen, A ring vibration isolator enhanced by a nonlinear energy sink. Journal of Sound and Vibration, 2021, 508: 116201
[31] Ze-Qi Lu, Dao Wu, Hu Ding, Li-Qun Chen, Vibration isolation and energy harvesting integrated in a Stewart platform with high static and low dynamic stiffness. Applied Mathematical Modelling, 2021, 89: 249-267.
[32] Ze-Qi Lu, Kai-Kai Zhang, Hu Ding, Li-Qun Chen, Internal resonance and stress distribution of pipes conveying fluid in supercritical regime. International Journal of Mechanical Sciences, 2020, 186: 105900
[33] Ze-Qi Lu, Kai-Kai Zhang, Hu Ding, Li-Qun Chen, Nonlinear vibration effects on the fatigue life of fluid-conveying pipes composed of axially functionally graded materials. Nonlinear Dynamics, 2020, 100(2): 1091-1104
[34] Ze-Qi Lu, Jie Chen, Hu Ding, Li-Qun Chen, Two-span piezoelectric beam energy harvesting. International Journal of Mechanical Sciences, 2020, 175: 105532.
[35] Ze-Qi Lu, Dong Shao, Zhi-Wei Fang, Hu Ding, Li-Qun Chen. Integrated vibration isolation and energy harvesting via a bistable piezo-composite plate, Journal of Vibration and Control, 2020, 26(9-10): 779-789
[36] Ze-Qi Lu, Dong-Hao Gu, Hu Ding, Walter Lacarbonara, Li-Qun Chen, Nonlinear vibration isolation via a circular ring. Mechanical Systems and Signal Processing, 2020, 136: 106490.
[37] Tianchang Deng, Guilin Wen, Hu Ding, Ze-Qi Lu, Li-Qun Chen, A bio-inspired isolator based on characteristics of quasi-zero stiffness and bird multi-layer neck. Mechanical Systems and Signal Processing, 2020, 145: 106967.
[38] Ze-Qi Lu, Hu Ding, Li-Qun Chen, Resonance response interaction without internal resonance in vibratory energy harvesting. Mechanical Systems and Signal Processing, 2019, 121: 767-776.
[39] Ze-Qi Lu, Michael J. Brennan, Hu Ding, Li-Qun Chen, High-static-low-dynamic-stiffness vibration isolation enhanced by damping nonlinearity. Science China: Technological Sciences, 2019, 62:1103-1110.
[40] Ze-Qi Lu, Ke Li, Hu Ding, Li-Qun Chen, Nonlinear energy harvesting based on a modified snap-through mechanism. Applied Mathematics and Mechanics, 2019, 40:167-180.
[41] Ze-Qi Lu, Guang-Shen Hu, Hu Ding, Li-Qun Chen. Jump-based estimation for nonlinear stiffness and damping parameters. Journal of Vibration and Control, 2019, 25: 325-335.
[42] Zhen Zhang, Ze-Qi Lu, Hu Ding, Li-Qun Chen, An inertial nonlinear energy sink. Journal of Sound and Vibration, 2019, 450
[43] Hu Ding, Ze-Qi Lu, Li-Qun Chen, Nonlinear isolation of transverse vibration of pre-pressure beams. Journal of Sound and Vibration, 2019, 442:738-751.
[44] Li-Qun Chen, Xiang Li, Ze-Qi Lu, Ye-Wei Zhang, Hu Ding, Dynamic effects of weights on vibration reduction by a nonlinear energy sink moving vertically. Journal of Sound and Vibration, 2019, 451: 99-119
[45] Jian Zang, Tian-Chen Yuang, Ze-Qi Lu, Ye-Wei Zhang, Hu Ding, Li-Qun Chen, A lever-type nonlinear energy sink. Journal of Sound and Vibration, 2018, 437:119-134.
[46] Ze-Qi Lu, Dong Shao, Hu Ding, Li-Qun Chen. Power flow in a two-stage nonlinear vibration isolation system with high-static-low-dynamic-stiffness. Shock and Vibration, 2018, 1697639: 1-13.
[47] Zeqi Lu, Tiejun Yang, Michael J. Brennan, Zhigang Liu, Li-Qun Chen. Experimental Investigation of a Two-stage Nonlinear Vibration Isolation System with High-static-Low-Dynamic Stiffness. ASME Journal of Applied Mechanics, 2017, 84: 021001.
[48] Ze-Qi Lu, Jue-Min Li, Hu Ding, Li-Qun Chen, Analysis and suppression of a self-excitation vibration via internal stiffness and damping nonlinearity. Advances in Mechanical Engineering, 2017, 9(11): 1-7.
[49] Ze-Qi Lu, Michael J Brennan, Li-Qun Chen. On the transmissibilities of nonlinear vibration isolation system. Journal of Sound and Vibration, 2016, 375: 28-37.
[50] Ze-Qi Lu, Li-Qun Chen, Michael J Brennan, Tiejun Yang, Hu Ding, Zhigang Liu, Stochastic resonance in a nonlinear mechanical vibration isolation system. Journal of Sound and Vibration, 2016, 370: 221-229.
[51] Ze-Qi Lu, Tiejun Yang, Michael J Brennan, Xinhui Li, Zhigang Liu, On the performance of a two-stage vibration isolation system which has geometrically nonlinear stiffness. ASME Journal of Vibration and Acoustics, 2014, 136(6): 064501.
[52] Ze-Qi Lu, Michael J Brennan, Tiejun Yang, Xinhui Li, Zhigang Liu. An investigation of a two-stage nonlinear vibration isolation system. Journal of Sound and Vibration, 2013, 332(6): 1456-1464.
非SCI论文从略
【科研项目】(近五年成果)
主持国家自然科学基金项目3项,国家科技创新2030重大项目子课题1项,横向课题10余项,主要项目如下:
[1]国家自然科学基金委员会,面上项目,12272210,声学超材料传感器非线性设计和动力学研究,2022/01-2026/12, 主持
[2]国家自然科学基金委员会,面上项目,11872037,隔振和能量采集一体化非线性设计及动力学研究,2019/01-2021/12, 主持
[3]国家自然科学基金委员会,青年项目,11502135,非线性阻尼、非线性刚度隔振系统的动力学理论和实验研究, 2016/01-2018/12, 主持
[4] 国家科技创新2030重大项目子课题,2025ZD0900503,******仿真及控制技术,2025/01-2027/12,主持(子课题负责人)
[5]中国博士后科学基金会,面上项目,2015M571540,非线性阻尼、非线性刚度隔振系统动力学分析及优化,2015/05-2016/05, 主持
[6]科技成果转化项目,21H01116,《基于Stewart平台准零刚度隔振和能量采集系统》一项专利权转让, 2021/09-2022/09, 主持
[7]科技成果转化项目,21H01117,《一种弹性圆环型结构超低频隔振器》一项专利权转让, 2021/08-2022/08, 主持
[8]科技成果转化项目,20H01194,《一种兼顾高低频振动的隔振装置》一项专利权转让, 2020/08-2021/08, 主持
[9]中国船舶科学研究中心,24H01842,声弹性软件用吸隔振系统及轴对称结构参数化建模与试验验证,2024/10-2025/04, 主持
[10]中国船舶科学研究中心,24H00151,带有主动控制的非线性隔振器建模、制备及验证,2024/02-2025/07, 主持
[10]企业咨询项目(哈尔滨工程大学),22H01199,非线性作动器结构动力学仿真计算及参数优化,2022/11-2023/06, 主持
[11]企业咨询项目(中国科学院微小卫星创新研究院),21H01552,CX-12卫星隔振器模态敲击实验,2021/12-2022/03, 主持
[12]企业咨询项目(商飞科技委托项目),20H00036,基于Stewart准零刚度隔振和能量采集一体化装置开发, 2019/07-2020/07, 主持
【技术专利、软著和标准】
1 标准
[1]陆泽琦、陈立群、张建华等,半导体设备隔振系统设计及技术要求,2024年4月18日,团体标准T/CI334-2024,第一起草人
2 软著
[1]陆泽琦 丁虎 陈立群, 多自由度强非线性震动频域分析软件,2019SR1189817,开发完成时间:2019年10月28日,软件著作权,第一完成人
3 专利
[1]陆泽琦,郝荣彪,张远索,杨仲普,赵龙,丁虎,陈立群,一种多方向低频超稳作动器,2024.7(授权)ZL202311459221.0,发明专利,第一发明人
[2]陆泽琦,张斐阳,周泽峰,丁虎,陈立群,一种旋转式能量采集装置及胎压监测系统2024.5(授权) ZL202111226191.X,发明专利,第一发明人
[3]陆泽琦,陈杰,丁虎,陈立群,一种多压电梁族复合振动能量采集器 2021.6(授权) ZL 202010854509.8,发明专利,第一发明人
[4]陆泽琦,陈立群,顾栋浩,一种弹性圆环型结构超低频隔振器 2020.10(授权) ZL 201811596704.4,发明专利,第一发明人
[5]陆泽琦,吴导,顾栋浩,陈杰,丁虎,陈立群,基于Stewart平台准零刚度隔振和能量采集系统,2020.7(授权) ZL 201910634275.3,发明专利,第一发明人
[6]陆泽琦,顾栋浩,丁虎,陈立群,一种形状记忆合金隔振器, 2020.6 (授权),ZL 201921722303.9,实用新型专利,第一发明人
[7]陆泽琦,陈立群,黎崛珉,胡广深,一种兼顾高低频振动的隔振装置,2019.7(授权) ZL 201710235766.1,发明专利,第一发明人
[8]杨铁军,陆泽琦,梁伟龙,孙红梅,孙瑶,石慧,张羽飞,黄迪,刘志刚,一种适用于低频振动的被动隔振装置,2016.01(授权) ZL 201410078384.9,发明专利,第二发明人
[9]杨铁军,梁伟龙,陆泽琦,吕朋,韩超,徐阳,吴磊,黄迪,张羽飞,石慧,孙瑶,一种适用于低频振动的三维隔振装置,2015.12 (授权) ZL 201410246940.9,发明专利,第三发明人
[10]施悦,陆泽琦,赵修涛,可调式气体加压连续出气装置,2009.10 (授权) ZL 200810064258.2, 发明专利,第二发明人
[11]施悦,赵修涛,陆泽琦,一体化生物制氢装置,2011.03 (授权) ZL 200810064257.8,发明专利,第三发明人
【所获荣誉】
基础理论研究类:
1. 2024年,中国力学学会自然科学奖 二等奖,排名第一;
2. 2023年,英国物理学会IOP2023年“中国高被引文章奖”,第一作者;
3. 2023年,《Nonlinear Dynamics》最佳论文奖,中国唯一获奖论文(另一篇论文是伊利诺伊大学厄巴纳-香槟分校Alexander F. Vakakis教授团队) ,通讯作者;
4. 2022年,《SCIENCE CHINA Technological Sciences》“2021年度高影响力论文奖”,第一作者;
5. 2020年,上海市力学学会优秀力学学者奖;
6. 2022-2024连续三年全球前2%顶尖科学家。
技术发明与产业化类:
7. 2024年,中国发明协会发明创业成果奖 一等奖,排名第一;
8. 2023年,中国国际工业博览会(高校)优秀展品奖 特等奖,排名第一;
9. 2023年,首届“苏颂杯”未来产业技术创新奖,排名第一。
【讲授课程】
[1] 高等动力学(研究生),冬季学期,
[2] 振动与控制(研究生),春季学期
[3] 分析力学(本科生),春季学期,
[4] 高等动力学(本科生),春季学期,
【学术兼职】
[1] 上海市非线性科学研究会理事,2020-今;
[2] 上海市力学学会动力学与控制专业委员会委员,2020-今;
[3] 动力学与控制学报青年编委,2020-今
【科研团队】
振动控制与非线性动力学团队
