王小萌,西南交通大学力学与航空航天学院副教授,硕士生导师。主要从事先进复合材料及其结构在航空航天、轨道交通以及土木工程领域的应用,包括复合材料结构分析与设计、多场多尺度力学、复合材料制作工艺、复合材料疲劳与耐久性、基于机器学习的复合材料力学行为分析等方面的研究。本科毕业于东南大学,南京航空航天大学与美国阿拉巴马大学联合培养博士。2018年进入捷克利贝雷茨理工大学纳米材料与先进技术创新研究所工作,历任博士后、C2、C3级研究员。2021年加入西南交通大学力学与航空航天学院。
在国内外期刊如Composite Part A、Composite Part B、Composite Structures等发表论文四十余篇。作为主要作者编写Elsevier出版专著一部。授权软件著作权8项。现主持国家自然科学基金、四川省自然科学基金和中央高校基本业务费-科技创新项目,西南交通大学青苗计划入选者。曾主研欧盟科技项目1项(8865万克朗)。担任全球首个实验视频SCI期刊Journal of Visualized Experiments的客座编辑。担任Composite Structures,Journal of Cleaner Production,Construction & Building Materials,Theoretical and Applied Fracture Mechanics,Polymers等多个SCI期刊的审稿人。
研究生招生专业:固体力学、工程力学、航空宇航科学与技术。
研究方向一:复合材料及其结构的分析与设计
研究方向二:复合材料疲劳性能与智能本构
研究方向三:复合材料制作工艺与机器学习软件
王小萌
学术论文:
1. Xiaomeng Wang, Michal Petru*. Mode I Fracture Evaluation of CFRP-to-concrete interfaces subject to aggressive environments agents Freeze-thaw cycles, acid and alkaline solution. Composite part B, 2019, 168: 581-588. [中科院TOP, 一区, IF: 12.7]
2. Xiaomeng Wang, Qianhua Kan, Michal Petru, Guozheng Kang*. Study on the composition-property relationships of basalt fibers based on symbolic regression and physics-informed neural network. Composites Part A: Applied Science and Manufacturing, 2024,10; 185: 108324. [中科院TOP, 一区, IF: 8.1]
3. Xiaomeng Wang *, Michal Petru*. Experimental study on fracture properties of CFRP-to-concrete interface subject to salt water. Composite Structures, 2021, 258: 113179. [中科院TOP, 一区, IF: 6.3]
4. Xiaomeng Wang, Michal Petru*, Hang Yu. The effect of surface treatment on the creep behavior of flax fiber reinforced composites under hygrothermal conditions. Construction & Building Material, 2019, 208: 220-227. [中科院TOP, 一区, IF: 7.4]
5. Xiaomeng Wang, Chuwei Zhou *. Numerical investigation for the flexural strengthening of RC beams with external prestressed HFRP sheets. Construction and Building Materials, 2018,189: 804-815. [中科院TOP, 一区, IF: 7.4]
6. Xiaomeng Wang, Michal Petru*. Freeze-thaw resistance of epoxy-concrete interface evaluated by a novel wedge splitting test. Construction and Building Material, 2019, 210: 434-441. [中科院TOP, 一区, IF: 7.4]
7. Xiaomeng Wang, Chuwei Zhou *, Jun Ai, Michal Petru, Yao Liu. Numerical investigation for the fatigue performance of reinforced concrete beams strengthened with external prestressed HFRP sheet. Construction and Building Materials, Mar, 2020,237: 117601. [中科院TOP, 一区, IF: 7.4]
8. Xiaomeng Wang*, Tao Yang, Marcus Maeder, Steffen Marburg. A novel fractional calculus modeling and physics-informed machine learning study on dynamic performance of hybrid flax/basalt fiber-reinforced composite. Nonlinear Dynamics, 2024,8; 1-21. [中科院TOP, 二区, IF: 5.2]
9. Xiaomeng Wang *, Michal Petru, Linxiang Xia. Modeling the dynamics behavior of flax fiber reinforced composite after water aging using a modified Huet-Sayegh viscoelastic model with fractional derivatives. Construction and Building Materials, 2021, 290: 122879. [中科院TOP, 一区, IF: 7.4]
10. Wang Xiaomeng*, Michal Petru*. Degradation of bending properties of flax fiber reinforced polymer after natural aging and accelerated aging. Construction and Building Materials, 2020,240: 117909. [中科院TOP, 一区, IF: 7.4]
11. Xiaomeng Wang *, Michal Petru*. Mode I fracture evaluation of carbon fiber reinforced polymer/steel interfaces subject to freeze-thaw cycling. Engineering Failure Analysis, 2020,110: 104405. [SCI, 二区, IF: 4.4]
12. Xiaomeng Wang*, Juan Zhang, Qian Wu, Michal Petr?. Fractional calculus-based creep model of HFRP double lap joint subjected to NaCl solution. Polymer Testing, 2023,9; 126: 108166. [SCI, 二区, IF: 5.0]
13. Xiaomeng Wang*, Jiawei Zhang, Qian Wu, Tao Yang, Michal Petr?. Viscoelastic behavior of jute fiber reinforced composite filled with ceramic particles after water aging. Polymer Composites, 0272-8397, 2023, 3; 44 (9), 5879-5890. [SCI, 二区, IF: 4.8]
14. Xiaomeng Wang, Michal Petru*. Effect of hygrothermal aging and surface treatment on the dynamic mechanical behavior of flax fiber reinforced composites. Materials, 2019, 12: 2376-2387. [SCI, 三区, IF: 3.1]
王小萌15. Xiaomeng Wang, Michal Petru*, Jun Ai, Yao Liu. Parametric study of flexural strengthening of concrete beams with prestressed hybrid reinforced polymer. Materials, 2019,12: 3790-3809. [SCI, 三区, IF: 3.1]
16. 
Xiaomeng Wang, Muhammad Tayyab Noman, Michal Petr?, Guozheng Kang*. Enhancing dynamic viscoelastic performance of flax fiber/fly ash hollow cenosphere‐reinforced composites coated by in situ fabrication of ultrasonically synthesized nanotitanium dioxide. Journal of Applied Polymer Science, 2024,6; 141(33): e55843. [SCI, 三区, IF: 2.7]
17. Xiaomeng Wang*, Michal Petr?. A novel machine learning framework informed by the fractional calculus dynamic model of hybrid glass/jute woven composite. Journal of Applied Polymer Science, 2024,6; 141(35): e55888. [SCI, 三区, IF: 2.7]
18. Xiaomeng Wang*, Qian Wu, Michal Petr?. Unveiling the temperature-dependent mechanisms of viscoelasticity of sand-enhanced epoxy. Green Materials, 2049-1220, 2024, 6; 1-14. [SCI]
19. 王小萌,周储伟*.干/湿状态下HFRP搭接接头的剪切蠕变试验及分数阶导数流变模型. 北京科技大学学报, 2017, 9: 1396-1402. [EI]
20. 王小萌, Jialai Wang, 周储伟*. NaCl溶液侵蚀下混凝土/环氧树脂界面黏结?分离本构试验.中南大学学报(自然科学版),2018, 49: 415-421. [EI]
学术专著:
1. 王小萌,刘驰达,张佳烨. 基于机理驱动机器学习的玄武岩纤维增强复合材料力学性能预测软件1.0. 2024年授权.
2. 王小萌,刘虎. 基于支持向量机的碳纤维增强复合材料疲劳失效预测软件1.0. 2024年授权.
3. 王小萌,王梓鹏,王颖. 基于人工神经网络的亚麻纤维增强复合材料力学性能预测平台 2.0. 2024年授权.
4. 王小萌. 基于随机森林的纤维增强复合材料疲劳寿命预测软件 1.0. 2024年授权.
5. 王小萌. 纤维增强复合材料智能本构软件 1.0. 2024年授权.
6. 王小萌,王梓鹏,王颖. 复合材料各向异性层合板强度校核软件1.0. 2024年授权.
7. 王小萌. 基于人工神经网络的纤维增强复合材料力学性能预测平台1.0. 2023年授权.
8. 王小萌. ViscoFit分数阶粘弹性模型参数拟合软件1.0. 2023年授权.
9. 王小萌. 基于人工神经网络的亚麻纤维增强复合材料力学性能预测平台1.0. 2023年授权.
团队名称:“材料本构关系和疲劳断裂”研究团队
团队介绍:康国政教授带领的“材料本构关系和疲劳断裂”研究团队主要从事先进材料的本构关系、疲劳与断裂力学、复合材料细观力学、智能材料与结构力学等方面的基础理论研究以及工程结构服役安全和剩余寿命评估。承担了国家自科学基金重点项目、国家杰出青年科学基金项目、国家自然科学基金面上和青年项目、重点研发子课题与子任务、四川省科技创新团队支持项目等国家和省部级项目20余项,横向服务项目若干项,研究经费较为充足。目前团队拥有教授5人(康国政,阚前华,吴圣川,张 旭,于超、刘虎)、副教授6人(张 娟,刘宇杰,苗鸿臣,李瀛栩,王小萌)、助理教授5人(刘俊杰、奥妮、胡雅楠,袁伟桃、付正鸿)。团队获得省部级自然科学和科技进步二等奖3项,国家教学成果二等奖2项。
王小萌
国际学术合作:与美国阿拉巴马大学、德国慕尼黑工业大学、捷克利贝雷茨理工大学建立有长期科研合作关系。
