Associate Professors

Jun Zhou

Personal Information
Name: Jùn Zhou
 
Date of Birth: Nov. 15, 1978
Nationality: China
Institution: College of Civil Engineering and Mechanics, Lanzhou University
Address: 222 South Tianshui Road, Lanzhou 730000, China
Tel:             Fax: +86-931-891-4561
Education
Sept. 2000 – Dec. 2006: Ph.D. in Solid Mechanics, College of Civil Engineering and Mechanics of Lanzhou University, Lanzhou, China
Sept. 1996 – Jul. 2000:   B.S. in Theory and Applied Mechanics, Department of Mechanics of Lanzhou University, China
Appointments
Apr. 2007 – Apr. 2009: Lecturer, College of Civil Engineering and Mechanics of Lanzhou University, Lanzhou, China
May 2009 – present: Associate Professor, College of Civil Engineering and Mechanics of Lanzhou University, Lanzhou, China
Mar. 2010 – Jan. 2011: Research Associate, Department of Building and Construction, City University of HongKong, HongKong, China
Mar. 2014 — Feb. 2015: Research Associate, Department of Materials Science and Engineering, North Carolina State University, USA
 
Research Areas
1.   Wavelet methods and applications
2.   Scattering of electromagnetic waves by particles/particle systems
3.   Numerical simulations of superconducting magnets
 
 
 
Visiting Positions
 
 
 
Members and Activities
 
 
Awards 
2013, Xu Zhilun Award for Outstanding Teacher, awarded by The Chinese Society of Theoretical and Applied Mechanics (CSTAM).
 
Research Grants
1.   Jan. 2013 – Dec. 2016: Multiscale Wavelet Methods for Multiscale Nonlinear Systems with Multiphyics Coupling, NSFC, PI;
2.   Jan. 2009 – Dec. 2011: Study on wavelet numerical methods for dynamics of electromagnetic structures with time-delays, NSFC, PI. 
 
 
Refereed Publications
2018
1.   Jùn ZHOU, Wankan Chan , and Justin Schwartz, Quench Detection Criteria for YBa2Cu3O7-δ Coils Monitored via a Distributed Tem perature Sensor for 77 K Cases, IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, 28(5):4703012, 2018.
2.   Jùn ZHOU, X. Dou, Li Xie, Scattering and attenuation of electromagnetic waves by partly charged particles, Journal of Quantitative Spectroscopy & Radiative Transfer, 206:55-62, 2018.
3.   Haichao Zhong, Jùn ZHOU*, Zhixin Du, Li Xie, A laboratory experimental study on laser attenuations by dust/sand storms, Journal of Aerosol Science, 121:31-37, 2018.
2017
4.   Haichao ZHONG, Jùn ZHOU*, and Li XIE, Experimental Measurement of EMWs Depolarization in S- and C-Bands Due to Sand Flux, IEEE ANTENNAS AND WIRELESS PROPAGATION LETTERS, 16:2345, 2017.
2016
5.   Li XIE, Xuqiang Dou, and Jùn ZHOU*, Sizing charged particles by phase Doppler anemometry, Applied Optics, 55(12):3279, April 2016.
6.   Li XIE, N. Bao, Y. Jiang, and Jùn ZHOU, Effect of humidity on contact electrification due to collision between spherical particles, AIP Advances, 6(3):035117, March 2016.
2008-2014
7.   Li XIE, Pengfei HE, Jùn ZHOU*, and Daniel J. Lacks, Correlation of contact deformation with contact electrification of identical materials. Journal of Physics D: Applied Physics, 47(21), 215501(2014)
8.   Li XIE, Kui Han, Yanping Ma, and Jùn ZHOU*, An electrification mechanism of sand grains based on the diffuse double layer and Hertz contact theory. Applied Physics Letters, 103, 104103 (2013).
9.   L. Xie, G. Li, N. Bao, and Jùn ZHOU*, Contact electrification by collision of homogenous particles. Journal of Applied Physics, 113, 184908 (2013).
10. Jùn ZHOU and Li XIE*. Effect of net surface charge on particle sizing and material recognition by using phase Doppler anemometry. Applied Optics, 50(3):379-386, 2011. (SCI)
11. Jùn ZHOU, Youhe ZHOU and K.M. Liew*. Wavelet-based method for stability analysis of vibration control systems with multiple delays. Computational Mechanics, 47:161-170, 2011. (SCI)
12. Youhe ZHOU and Jùn ZHOU*. A modified wavelet approximation for multiresolution AWCM in simulating nonlinear vibration of MDOF systems. Computer Methods in Applied Mechanics and Engineering, 197:1466-1478, 2008. (SCI)
13. Youhe ZHOU and Jùn ZHOU*. A modified wavelet approximation of deflections for solving PDEs of beams and square thin plates. Finite Elements in Analysis and Design, 44:773-783, 2008.