E-mail：sywang@jnu.edu.cn

王思宇，工学博士，暨南大学力学与建筑工程学院讲师

研究方向

固体材料大变形本构关系的理论研究，包括软材料超弹性与损伤行为的本构建模研究，以及金属弹塑性变形与断裂破坏的理论与数值方法研究。

教育/工作背景

2009.09-2013.07 武汉大学，土木建筑工程学院，工程力学，学士

2015.09-2018.07 上海大学，上海市应用数学和力学研究所，固体力学，硕士，导师：肖衡

2019.09-2022.07 暨南大学，力学与建筑工程学院，工程力学，博士，导师：肖衡

2022.09-至今，暨南大学，力学与建筑工程学院，讲师（青蓝学者）

主持项目

1、广州市科学技术局“启航”项目，基于方向不变量的各向异性软材料本构建模方法，2024.01-2024.12，主持；

2、中央高校基本科研业务费，各向异性软材料超弹性本构建模的研究, 2023.01-2024.12，主持；

3、第74批博士后面上基金，横观各向同性软材料超弹性行为的本构建模和实验表征, 2023.06-2025.06，主持。

代表性论文

1.He HN, Wang SY*, Xi HF*, Xiao H*, Zhan L*, Zhou JS, The large strain snap-through effect in free torsion of highly elastic soft thin-walled tubes with exact closed-form solutions, Thin-Walled Structures, 2024, 199:111803.

2.Han ML, Wang HY, Wang SY*, Xiao H*, Exact large strain analysis for the Poynting effect of freely twisted thin-walled tubes made of highly elastic soft materials, Thin-Walled Structures, 2023, 184: 110503.

3.Zhan L, Wang SY*, Bruhns OT*, Xiao H*, High-efficiency algorithms for Simulating metal failure effects under multi-axial repeated loadings. International Journal for Numerical Methods in Engineering, 2022, 123:1277-1293.

4.Wang SY, Zhan L, Bruhns OT, Xiao H*, Automatically and accurately simulating pseudo-elastic hysteresis effects of shape memory alloys. Continuum Mechanics and Thermodynamics, 2022, 34: 739-761.

5.Wang SY, Zhan L, Xi HF, Bruhns OT, Xiao H*, Unified simulation of hardening and softening effects for metals up to failure. Applied Mathematics and Mechanics (English Edition), 2021, 42: 1685-1702.

6.Wang S Y, Zhan L, Bruhns OT, Xiao H*, Metal failure effects predicted accurately with unified and explicit criterion, ZAMM-Journal of Applied Mathematics and Mechanics, 2021, doi.org/10.1002/zamm.202100140. 

7.Wang SY, Zhan L, Xi HF, Xiao H*, A unified approach toward simulating constant and varying amplitude fatigue failure effects of metals with fast and efficient algorithms, Acta Mechanica Solida Sinica, 2021, 34: 53-64.

8.Wang SY, Zhan L, Xi HF, Xiao H*, New finite strain elastoplastic equations for accurately and explicitly simulating pseudoelastic to plastic transition effects of shape memory alloys. Applied Mathematics and Mechanics (English Edition), 2020, 41: 1583-1596.

9.Zhan L, Wang XM, Wang SY*, Xi HF*, Xiao H*, An explicit and accurate approach toward simulating plastic to pseudoelastic transitions of SMAs under multiple loading and unloading cycles, International Journal of Solids and Structures, 2020, 185: 104-115.