Runze Zhu (2025)
Visiting UoM from 01/2025 to 3/2025 to work on the PhD topic entitled "Vibration attenuation of rotating thin-walled structures".
Education
- PhD (Mechanical Engineering), Tsinghua University, China, (2019 – Present)
- BEng (Mechanical Engineering), Tsinghua University, China (2015 – 2019)
Research Interests
- Structural dynamics
- Vibration attenuation
- Acoustic black hole
Awards and Scholarships
- Scholarship of Tsinghua University
- Outstanding Volunteer of the Olympic Winter Games Beijing 2022
Publications
- R. Zhu, X. Zhang, et al, Modeling and topology optimization of cylindrical shells with partial CLD treatment, International Journal of Mechanical Sciences 2022, 220, 107145. https://doi.org/10.1016/j.ijmecsci.2022.107145
- R. Zhu, L. Zhang, et al, Constrained layer damping for mitigating vibration of a rotating disk-drum coupled structure, Mechanical Systems and Signal Processing 2023, 200,110531. https://doi.org/10.1016/j.ymssp.2023.110531
- R. Zhu, Y. Liu, et al, Vibration attenuation of rotating disks via acoustic black holes, International Journal of Mechanical Sciences 2023, 242, 108025. https://doi.org/10.1016/j.ijmecsci.2022.108025
- Y. Liu, R. Zhu, Z. Qin, F. Chu, A comprehensive study on vibration characteristics of corrugated cylindrical shells with arbitrary boundary conditions, Engineering Structures 2022, 269, 114818. https://doi.org/10.1016/j.engstruct.2022.114818
- Y. Liu, W. Hu, R. Zhu, B. Safaei, Z. Qin, F. Chu, Dynamic responses of corrugated cylindrical shells subjected to nonlinear low-velocity impact, Aerospace Science and Technology 2022, 121, 107321. https://doi.org/10.1016/j.ast.2021.107321
- S. Zhao, L. Zhang, R. Zhu, Q. Han, Z. Qin, F. Chu, Modeling approach for flexible shaft-disk-drum rotor systems with elastic connections and supports, Applied Mathematical Modelling 2022, 106, 402–425. https://doi.org/10.1016/j.apm.2022.02.004
- Minghu, Z., Haifeng, L., Shuai, S., Xiaolong, C., Shu, ID. Dynamic Mechanical Behaviors of Desert Sand Concrete (DSC) after Different Temperatures. Applied Sciences,2019,9(19),4151
- Haifeng Liu, Xiaolong Chen, Jialing Che, Ning Liu, Minghu Zhang. Mechanical Performances of Concrete Produced with Desert Sand After Elevated Temperature. International Journal of Concrete Structures and Materials,2020,14(1), 3495
- Qin Shangyuan, Chen Xiaolong, Liu Haifeng⁎, Liu Haitao, Liu Qiang, Liu Ning. Ultrasonic testing of compressive strength of desert sand concrete after elevated temperature. Concrete,2021,No.375(01):157-160. (CSCD, in Chinese)
- Haifeng, L. Shuai, S. Che, JL. Liu, Q. Zhang, MH. Ma, YC. Zhang, Q. Chen, XL. Liu, F. Nondestructive testing methods for desert sand concrete and flexural strength at high temperature. Ningxia University, 2019. (Patent for invention: CN109553348A)
- Chen, XL. Zhang, Q. Liu, YJ. Strength prediction system of desert sand concrete after high temperature based on deep learning model. V2.0. Ningxia University, 2019