Zhou Xiaoqiang

Academic Degrees

•D. Eng. 2017, Huazhong University of Science and Technology, Mechanical Engineering
•M. Eng. 2011, Hubei University of Science and Technology, Mechanical Engineering
•B. Eng. 2008, Hubei University of Science and Technology, Mechanical Engineering

Professional Experience

•Associate Professor (2019.04- present): Huazhong University of Science and Technology, School of Civil Engineering and Mechanics;
•Postdoc position (2017.06-2019.04): Huazhong University of Science and Technology, School of Civil Engineering and Mechanics;
•Visiting Scholar (2015.09-2016.09): Purdue University, School of Mechanical Engineering

Selected Publications

•Zhou XQ, Yu DY, Shao XY, Wang S. Asymptotic homogenization analysis of the dynamics properties of periodically and orthogonally stiffened composite laminates. Composites Part B: Engineering. 2016;105:116-31.
•Zhou XQ, Yu DY, Shao XY, Wang S, Zhang SQ. Asymptotic analysis for composite laminated plate with periodically fillers in viscoelastic damping material core. Composites Part B: Engineering. 2016;96:45-62.
•Zhou XQ, Yu DY, Shao XY, Wang S, Tian YH. Asymptotic analysis on flexural dynamic characteristics for a sandwich plate with periodically perforated viscoelastic damping material core. Composite Structures. 2015;119:487-504.
•Zhou XQ, Yu DY, Shao XY, Zhang SQ, Wang S. Research and applications of viscoelastic vibration damping materials: A review. Composite Structures. 2016;136:460-80.
•Zhou XQ, Yu DY, Shao XY, Zhang SQ, Wang S. Asymptotic analysis on flexural dynamic characteristics for a laminated composite plate with embedded and perforated periodically viscoelastic damping material core. Composite Structures. 2016;154:616-33.
•Zhou XQ, Yu DY, Shao X, Wang S, Tian YH. Band gap characteristics of periodically stiffened-thin-plate based on center-finite-difference-method. Thin-Walled Structures. 2014;82:115-23.
•Zhou XQ, Yu DY, Shao X, Wang S, Zhang SQ. Simplified-super-element-method for analyzing free flexural vibration characteristics of periodically stiffened-thin-plate filled with viscoelastic damping material. Thin-Walled Structures. 2015;94:234-52.
•Zhou XQ, Yu DY, Shao X, Zhang SQ, Wang S. Research on the low frequency band gap properties of periodically composite stiffened thin-plate with fillers. Thin-Walled Structures. 2016;108:41-55.
•Zhou XQ, Wang L., Low-velocity impact response of viscoelastic material filled FG honeycomb reinforced laminate plate in hygrothermal environments, Composites Part B: Engineering, 165 ;2019: 255-271.
•Zhou XQ, Yu D.Y., Acoustic energy absorption and dissipation characteristic of Helmholtz resonator enhanced and broadened by acoustic black hole, Aerospace Science and Technology, 81;2018: 237-248.
•Zhou XQ, Wang L., Yu D.Y., Zhang C.Y., Dynamic effective equivalent stiffness analysis on the periodical honeycomb reinforced composite laminated structure filled with viscoelastic damping material, Composite Structures, 193; 2018: 306-320.
•Zhou XQ, Yu D.Y., Shao X.Y., Zhang C.Y., Wang S., Dynamics characteristic of steady fluid conveying in the periodical partially viscoelastic composite pipeline, Composites Part B: Engineering, 111;2017:387-408.
•Zhou XQ, Yu DY. Elastic wave propagation energy dissipation characteristics analysis on the viscoelastic damping material structures embedded with acoustic black hole based on semi-analytical homogeneous asymptotic method. Applied Mathematical Modelling. 2019;70:221-45.

Courses Taught

•CEM0641: Theoretical mechanics

Project

•Energy dissipation mechanism research and algorithm study on VEM-EM composite plates and shells considering hygrothermal and amplitude-frequency effects, NSFC, 2019.01-2021.01
•Vibration energy dissipation properties analysis on frequency- and temperature-dependent VDM stiffened composite cylindrical shell, CPSF, 2017.06-2019.06
•Vibration energy dissipation analysis on the viscoelastic material composed plates and shell, 2017.06-2019.06

Awards