学历/学位

研究生/博士

职    称

副教授

导师类型

□学术学位                 ■专业学位

招生学科/专业

土木水利/土木工程

研究方向

结构非线性振动、振动控制及振动能量俘获

所在单位

土木与水利工程学院

E-mail

xiaochunn@cqust.edu.cn 

基本情况：

　　聂小春，2020年6月毕业于重庆大学土木工程专业，获工学博士学位。主要从事结构非线性振动、振动控制及振动能量俘获研究。主持国家自然科学基金1项、中国博士后科学基金面上项目一等资助1项、省部级自然科学基金项目3项。在力学学报、Mechanical Systems and Signal Processing和International Journal of Mechanical Sciences等国内外高水平期刊发表科研论文30余篇。

[1]聂小春,林西齐,付俊杰,王灵芝,晏致涛.脉冲激励下阻尼非线性对串列式两自由度非线性能量阱的减振性能研究[J].力学学报,2024,56(3):1459-1474.

[2]Nie Xiaochun, Lin Tao, Wang Lingzhi, Yang Ming, Yan Zhitao. Theoretical and experimental study on the combination internal resonance of L-shaped piezoelectric vibration energy harvester[J]. Mechanical Systems and Signal Processing, 2025, 224:112099.

[3] Lin Tao, Wang Lingzhi, Yang Ming, Yan Zhitao, Nie Xiaochun* (通讯作者). Bifurcation boundaries analysis of the thin-walled internal resonance energy harvester[J]. Thin-Walled Structures, 2024,205: 112372.

[4]Nie Xiaochun, Pei Sheng, Tan Ting, Yan Zhitao,Yan Zhimiao. Nonlinear 1:2 internal resonance response of L-shaped piezoelectric energy harvester under the influence of electrical damping[J]. International Journal of Mechanical Sciences, 2022, 225 :107365.

[5] Nie Xiaochun, Tan Ting, Yan Zhimiao, Yan Zhitao, Zhang Wenming. Ultra-wideband piezoelectric energy harvester based on Stockbridge damper and its application in smart grid[J]. Applied Energy,2020,267:114898.

[6]Nie Xiaochun, Tan Ting, Yan Zhimiao, Yan Zhitao, Hajj Muhammad R. Broadband and high-efficient L-shaped piezoelectric energy harvester based on internal resonance[J]. International Journal of Mechanical Sciences, 2019,159:287-305.

[7] Nie Xiaochun, Lin Tao, Shen Dafu, Ren Qingyang, Yan Zhitao, Wang Lingzhi. Approximate analytical solutions of the 1:3 internal resonance response of piezoelectricenergy harvester considering two types of coupled frequency components[J]. Composite Structures, 2024, 339: 118159.

[8]Nie Xiaochun, Tan Ting, Yan Zhimiao,Yan Zhitao, Wang Lingzhi. Revised method of multiple scales for 1:2 internal resonance piezoelectric vibration energy harvester considering the coupled frequency[J]. Communications in Nonlinear Science and Numerical Simulation, 2023,118 :107018.

[9]Wang Lingzhi, Liu Weidong, Lin Xiqi, Yan Zhitao, Nie Xiaochun*(通讯作者). Study of vibration suppression and energy harvesting for a Vibration-based Piezoelectric-Electromagnetic energy harvester with nonlinear energy sink[J]. Journal of Magnetism and Magnetic Materials,2024, 602:172200.

[10]Lin Xiqi, Wang Lingzhi, Wang Ziheng, Yan Zhitao, Qin Yangdong, Nie Xiaochun*(通讯作者). Vibration suppression and energy harvesting of nonlinear energy sink-based piezoelectric system with combined damping and bistability properties for nonlinear oscillator[J]. International Journal of Structural Stability and Dynamics,2026, 2650017.

[11]Nie Xiaochun, Yang Min, Lin Xiqi, Yan Zhitao, Wang Lingzhi. Vibration suppresion and energy harvesting of two degree of freedom main structure coupled with a bistable nonliear energy sink under transient excitation[J]. Journal of Vibration Engineering and Technologies, 2024,12(2): 2301-2323.

[12] Nie Xiaochun, Lin Xiqi, Fu Junjie, Gao Xin, Wang Lingzhi, Yang Ming, Yan Zhitao. Instability boundary and dynamic behavior of primary structure coupled with the nonlinear energy sink-piezoelectric system[J].Journal of Vibration Engineering & Technologies, 2025, 13(156):1-14.

[13]Wang Lingzhi, You Yi, Liu Weidong, Wei Qike, Yan Zhitao, Nie Xiaochun*(通讯作者), Yang Yongbin. Geometric nonlinear analysis of angle section elements based on updated lagrangian formulation and rigid body rule[J]. International Journal of Structural Stability and Dynamics,2024:2450253.

[14]Nie Xiaochun, Gao Xin, Wang Lingzhi, Tan Ting, Yan Zhitao, Yan Zhimiao, Liu Xinpeng. Nonlinear analysis of the internal resonance response of an L-shaped beam structure considering quadratic and cubic nonlinearity[J].Journal of Statistical Mechanics: Theory and Experiment, 2022, 023204.

目前主持的科研课题：

[1]国家自然科学基金委员会，青年项目，基于非线性能量阱和压电效应的导线微风振动减振俘能机理研究，2022.01-2024.12，主持；

[2]中国博士后科学基金会，面上项目（一等资助），考虑力-电耦合效应的1:2:3内共振压电振动能量俘获系统的宽频高效俘能机理研究，2022M720021，主持；

[3]重庆市科学技术局，面上项目，考虑力电耦合作用的串列式两自由度非线性能量阱-压电系统减振俘能机理研究，2022.08-2025.07，主持；

[4]重庆市科学技术局，博士直通车项目，基于非线性能量阱-电磁-压电效应的主结构振动控制和能量俘获机理研究，2022.09-2024.08，主持；

[5]重庆市教育委员会，青年项目，基于1:3内共振的悬臂式压电俘能结构理论模型及性能研，2021.09-2024.09，主持。