张舜祖

发布日期:2024-03-23 13:17:46 | 点击数:



个人简介

学习经历:

2010年9月-2014年6月兰州大学理论与应用力学学士

2014年9月-2019年6月兰州大学固体力学博士

工作经历:

2019年9月-2020年12月77779193永利官网土木与水利工程学院,讲师

2021年1月-至今77779193永利官网土木与水利工程学院,副教授,硕士生导师

讲授课程:

《理论理论》、《弹塑性力学》、《建筑力学》等

研究方向

磁/电敏超构材料波动力学

水下声振超结构设计与控制

深度学习与智能波器件优化

论文专著与专利

代表性论文:

1.Zhang S Z*, Shu S, Wan Y. Tunable asymmetric transmission of flexural waves in the dual-layer magnetoelastic metasurfaces by modulating magnetic field. International Journal of Modern Physics B, 2450366,2023.(SCI收录)

2.Zhang S Z, Wan Y K, Bian X H, Dong X G*. Broadband and controllable topological interface state of longitudinal wave in pillared phononic crystal beams. Physica B: Condensed Matter, 650: 414555,2023.(SCI收录)

3.Zhang S Z*, Shu S W,Bian X H. Tunability for anomalous refraction of flexural wave in a magneto-elastic metasurface by magnetic field and pre-stress. Applied Physics Express, 15(2): 027003,2022.(SCI收录)

4.Zhang S Z, Hu Q Q, Zhao W J*. Surface effect on band structure of magneto-elastic phononic crystal nanoplates subjected to magnetic and stress loadings. Applied Mathematics and Mechanics (English Edition), 43(2): 203-218,2022.(SCI收录)

5. Hu Q Q, Yang W W,Zhang S Z*. Studies on band structure of magneto-elastic phononic crystal nanoplates using the nonlocal theory. Physics Letters A, 423: 127820,2022.(SCI收录)

6.Zhang S Z*, Gao Y W. Flexural wave band structure of magneto-elastic phononic crystal nanobeams based on the nonlocal theory. Physics Letters A, 390: 127090,2021. (SCI收录)

7.Zhang S Z, Gao Y W*. Tunability of hysteresis-dependent band gaps in a two-dimensional magneto-elastic phononic crystal using magnetic and stress loadings, Applied Physics Express 12, 027001,2019.(SCI收录)

8. Deng T,Zhang S Z, Gao Y W*. A magnetic-dependent vibration energy harvester based on the tunable point defect in 2D magneto-elastic phononic crystals, Crystals 9, 261,2019.(SCI收录)

9. Deng T,Zhang S Z, Gao Y W*. Tunability of band gaps and energy harvesting based on the point defect in magneto-elastic acoustic metamaterial plate, Applied Physics Express 13.1: 015503,2019. (SCI收录)

10.Zhang S Z, Gao Y W*. Gap evolution of Lamb wave propagation in magneto-elastic phononic plates with pillars and holes by modulating magnetic field and stress loadings, Journal of Applied Physics 124: 244102,2018.(SCI收录)

11.Zhang S Z, Yao H, Gao Y W*, A 2D mechanical-magneto-thermal model for direction-dependent magnetoelectric effect in laminates, Journal of Magnetism and Magnetic Materials 428: 437- 447,2017.(SCI收录)

12.Zhang S Z, Gao Y W*. Surface effect on band structure of flexural wave propagating in magneto-elastic phononic crystal nanobeam, Journal of Physics D: Applied Physics 50: 44 5303,2017.(SCI收录)

13.Zhang S Z, Shi Y, Gao Y W*. Tunability of band structures in a two- dimensional magnetostrictive phononic crystal plate with stress and magnetic loadings, Physics Letters A 381: 1055-1066,2017.(SCI收录)

14.Zhang S Z, Shi Y, Gao Y W*. A mechanical-magneto-thermal model for the tunability of band gaps of epoxy/Terfenol-D phononic crystals, Journal of Applied Physics 118: 034101,2015.(SCI收录)

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