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基本信息 The basic information
姓名: 秦卫阳

学院: 力学与土木建筑学院


学历: 博士研究生毕业

学位: 工学博士


职称: 教授

职务:


学科: 力学


邮箱: qinweiyang@nwpu.edu.cn




工作经历 Work Experience
秦卫阳，1967年生，西北工业大学力学与土木建筑学院工程力学系教授，博士生导师。目前主要从事非线性动力学、振动能量采集、转子动力学等方面的研究。

教育经历
1985/09-1989/07，复旦大学，应用力学系，学士
1989/09-1992/04，西北工业大学，振动工程研究所，硕士
1997/09-2001/12，西北工业大学，工程力学系，博士

工作经历
1992/04-2003/04，西北工业大学，振动工程研究所，助教、讲师
2003/05-2008/04,西北工业大学，工程力学系，副教授
2008/05-现在，西北工业大学，工程力学系，教授



科学研究 Scientific Research
科研经历
主要从事非线性动力学、振动能量采集、转子动力学、机械振动与信号处理等方面的研究。主持国家自然科学基金3项，主持和参加863项目、航空科学基金等其他项目共15项。博士学位论文被评为2004年陕西省优秀博士学位论文。2019年指导的博士生获得陕西省优秀博士学位论文。获航空科技进步三等奖一次，陕西省科技进步二等奖一次。出版学术专著2部。在国内外期刊和学术会议上发表论文70多篇，其中SCI检索40篇。

近年来代表性论文

[1] Qin, W.Y., Deng, W.Z. et al, Harvesting wind energy with bi-stable snap-through excited by vortex-induced vibration and galloping. Energy, 189:116237, 2019
[2] Li, H.T., Qin, W.Y.,Nonlinear dynamics of a pendulum-beam coupling piezoelectric energy harvesting system.European Physical Journal Plus, 134 (12):595, 2019
[3] Pan, J.N., Qin, W.Y., Deng, W.Z.,Promote efficiency of harvesting vibration energy by tailoring potential energy with addition of magnets. AIP Advances, 9 (7):075323, 2019
[4] Zhou, Z.Y., Qin, W.Y., Zhu, P. et al,Scavenging wind energy by a dynamic-stable flutter energy harvester with rectangular wing. Applied Physics Letters, 114 (24):243902, 2019
[5] Lan, C.B., Tang, L.H., Hu, G.B., Qin, W.Y., Dynamics and performance of a two degree-of-freedom galloping-based piezoelectric energy harvester.Smart Materials and Structures, 28 (4):45018, 2019
[6] Pan, J.N., Qin, W.Y., Harvesting base vibration energy by a piezoelectric inverted beam with pendulum.Chinese Physics B, 28 (1):017701, 2019
[7] Zhou, Z.Y., Qin, W.Y., Zhu, P. et al,Harvesting performance of quad-stable piezoelectric energy harvester: Modeling and experiment. Mechanical Systems and Signal Processing, 110: 260-272, 2018.
[8] Zhou, Z.Y., Qin, W.Y., Zhu, P. et al, Scavenging wind energy by a Y-shaped bi-stable energy harvester with curved wings.Energy, 153: 400-412, 2018
[9] Li,H.T.,Qin,W.Y.,Zu,J. et al,Modeling and experimental validation of a buckled compressive-mode piezoelectric energy harvester. Nonlinear Dynamics, 92 (4): 1761-1780, 2018
[10] Li, H.T., Qin, W.Y., Deng, W.Z.,Coherence resonance of a magnet-induced buckled piezoelectric energy harvester under stochastic parametric excitation. Journal of Intelligent Material Systems and Structures, 29 (8): 1620-1631, 2018
[11] Lan C.B., Tang, L.H., Qin,W.Y. et al,Magnetically coupled dual-beam energy harvester: Benefit and trade-off.Journal of Intelligent Material Systems and Structures, 29 (6): 1216-1235, 2018
[12] Zhou, Z.Y., Qin, W.Y., Yang Y.F. et al,Improving efficiency of energy harvesting by a novel penta-stable configuration.Sensors and Actuators, A: Physical, 265: 297-305, 2017
[13] Lan, C.B., Tang, L.H., Qin, W.Y.,Obtaining high-energy responses of nonlinear piezoelectric energy harvester by voltage impulse perturbations.EPJ Applied Physics, 79 (2), 2017
[14] Li, H.T., Yang, Z., Zu, J., Qin, W.Y.,Numerical and experimental study of a compressive-mode energy harvester under random excitations.Smart Materials and Structures, 26 (3):035064, 2017
[15] Lan, C.B., Qin, W.Y.,Enhancing ability of harvesting energy from random vibration by decreasing the potential barrier of bistable harvester.Mechanical Systems and Signal Processing, 85: 71-81, 2017
[16] Zhou, Z.Y., Qin, W.Y., Zhu, P., A broadband quad-stable energy harvester and its advantages over bi-stable harvester: Simulation and experiment verification. Mechanical Systems and Signal Processing, 84: 158-168, 2017
[17] Zhou, Z.Y., Qin, W.Y., Zhu, P., Harvesting acoustic energy by coherence resonance of a bi-stable piezoelectric harvester. Energy, 126: 527-534, 2017
[18] Li, H.T., Zu, J., Yang, Y.F., Qin, W.Y.,Investigation of snap-through and homoclinic bifurcation of a magnet-induced buckled energy harvester by the Melnikov method.Chaos, 26 (12):123109, 2016
[19] Li, H.T., Qin, W.Y.,Prompt efficiency of energy harvesting by magnetic coupling of an improved bi-stable system.Chinese Physics B, 25 (11):110503, 2016
[20] Zhou, Z.Y., Qin, W.Y., Zhu, P., Improve efficiency of harvesting random energy by snap-through in a quad-stable harvester. Sensors and Actuators, A: Physical, 243: 151-158, 2016
[21] Lan C.B., Qin, W.Y., Deng, W.Z.，Energy harvesting by dynamic unstability and internal resonance for piezoelectric beam. Applied Physics Letters, 107(9): 093902, 2015
[22] Li, H.T., Qin, W.Y., Dynamics and coherence resonance of a laminated piezoelectric beam for energy harvesting. Nonlinear Dynamics, 81(4): 1751-1757, 2015
[23] Lan, C.B., Qin, W.Y., Energy harvesting from coherent resonance of horizontal vibration of beam excited by vertical base motion. Applied Physics Letters, 105(11): 113901, 2014
[24] Qin, W.Y., Jiao, X.D., Synchronization and anti-synchronization of chaos for a multi-degree-of-freedom dynamical system by control of velocity. Journal of Vibration and Control, 20(1), pp146, 2014
[25] 李海涛，秦卫阳，宽频随机激励下非线性压电能量采集器的相干共振. 物理学报, 63(12), 120505, 2014
[26]李海涛，秦卫阳，带有分数阶阻尼的压电能量采集系统相干共振，物理学报，63(22), 220504, 2014
[27] 秦卫阳, 孙涛等, 一类动力学系统通过函数耦合实现混沌同步,物理学报, 61(9), pp90502, 2012





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