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Vehicle Engineering Faculty >> Vehicle Engineering
Zhou Hongyue
Date:2019/11/22 | View:


Zhou Hongyue



Professional Title



Vehicle Engineering


+86 0511 88797620


Short Biography

 Hongyue   Zhou received the B.S. degree in Theoretical and Applied Mechanics from   Henan Polytechnic University, Jiaozuo, Henan, China, in 2010, the M.S. degree   in Engineering Mechanics from Jiangsu University, Zhenjiang, Jiangsu, China,   in 2013, and Ph.D. degree in Vehicle Engineering from Southeast University,   Nanjing, Jiangsu, China, in 2019. He is currently working in School of Automotive   and Traffic Engineering, Jiangsu University, Zhenjiang, Jiangsu, China.

Teaching Courses

Vehicle NVH Technologies, Mechanical   Vibration

Research Fields

Thermoelastic damping in micro/nano-resonators,   Structural vibration and noise

Selected Publications

 Selected   Journal Papers :

[1]   H.Y.   Zhou*, P. Li, W. Zuo, et al. Dual-phase-lag thermoelastic   damping models for micro/nanobeam resonators, Appl. Math.   Model. 2020, in press, DOI: 10.1016/j.apm.2019.11.027 .

[1]   H.Y.   Zhou, P. Li*, Y.M. Fang, Single-phase-lag thermoelastic damping   models for rectangular cross-sectional micro- and nano-ring resonators, Int.   J. Mech. Sci. 163 (2019) 105132.

[2]   H.Y.   Zhou, P. Li*, Y.M. Fang, Thermoelastic damping in circular   cross-section micro/nanobeam resonators with single-phase-lag time, Int. J.   Mech. Sci. 142-143 (2018) 583-594.

[3]   H.Y.   Zhou, P. Li*, Thermoelastic damping in   micro-and nanobeam resonators with non-Fourier heat conduction, IEEE Sens. J.   17 (21) (2017) 6966-6977.

Selected Conference Papers :

[1]   H.Y.   Zhou*, P. Li, W.L. Zuo, Thermoelastic damping in micro-wedged cantilever   resonator with rectangular cross-section, in: 2016 IEEE International Conference   on Mechatronics and Automation (ICMA), IEEE, Harbin, China, 2016, pp.   1590-1595.

[2]   H.Y.   Zhou, P. Li*, A modified thermoelastic damping model for micro-   and nanobeam resonators with non-fourier theory of dual-phase-lag model, in: 2018   4th International Conference on Control, Automation and Robotics, IEEE,   Auckland, New Zealand, 2018, pp. 202-206.

The   symbol * represents the Corresponding Author.

More detials about Hongyue Zhou can be found   at

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