简介:
朱绍伟,1991出生于汉中市宁强县。硕士生导师,现工作单位为重庆大学。主持国家和省部级课题四项,发表SCI论文40余篇,H index 20,中国复合材料学会青年工作委员会委员,中国复合材料学会车辆工程专委会委员,中国力学学会会员,担任国际期刊International Journal of Machine Learning编委,Polymers特刊编辑及多个SCI期刊审稿人。
联系方式:zhu_wei@cqu.edu.cn
地址:重庆大学A区 第九教学楼813室
学术主页1 (Researchgate):
https://www.researchgate.net/profile/Shaowei-Zhu/research?ev=prf_act
学术主页2(谷歌学术):
https://scholar.google.com/citations?user=3BFeGGkAAAAJ&hl=zh-CN
研究方向:
☆ 基于数据驱动的力学新方法及数据挖掘技术
☆ 力学超材料与复合材料结构力信息学
☆ 3D打印连续纤维增强复合材料工艺力学
2009.9~2013.6 兰州大学 理论与应用力学 本科
2014.9~2016.6 哈尔滨工业大学 航天工程(复合材料力学方向) 硕士(导师:王兵教授)
2016.9~2020.12 哈尔滨工业大学 工程力学 博士(导师:周振功教授/王兵教授)
2021.1~2023.12重庆大学 航空航天学院 弘深青年教师、博士后(合作导师:陈立明)
2021.4~2023.12重庆大学 航空航天学院 助理研究员
2024.1~至今 重庆大学 航空航天学院 讲师
[22]S Zhu, M Wen, Z Lv, L Chen*, T Liu, X Hou,Predicting the properties of metamaterials consisting of curved-wall triangles using ensemble neural networks with interpretability, Engineering Applications of Artificial Intelligence[J],2024,138,109408
[21]S Zhu, H Chen, X Yang, L Tan, S Jin, L Chen*, T Liu, X Tan*, L Wang, B Wang, M Kadic*, Rubik's Cube as In-situ Programmable Matter and a Reconfigurable Mechanical Metamaterial, SCIENCE CHINA Technological Sciences (中国科学·技术科学 英文版)[J], 2024, 67, 3221–3234.
[20] J Wang,S Zhu*, L Chen*, T Liu, H Liu, Z Lv, B Wang, X Tan, Data mining from a hierarchical dataset for mechanical metamaterials composed of curved-sides triangles, Composite Structures[J], 2023, 319, 117153.
[19]S Zhu, J Wang, L Chen*, T Liu, W Li, Negative Stiffness Metamaterial with Directional Stability in Uniform Fields, Thin-Walled Structures[J], 2024, 194,111302.
[18]S Zhu, B Wang*, L Chen, X Tan, L M, Enhance the energy dissipation ability of sleeve-type negative stiffness structures via a phase-difference mechanism, International Journal of Mechanical Sciences[J],213, 106803 2022.
[17] S Jin, L Chen,S Zhu*, B Du*, T Liu, X Hou, Joint Performance of a Continuous Glass Fiber/Polypropylene Composite, Polymers[J], 2023,19(15),3942.
[16] X Liu,S Zhu*, L Chen*, W Li, H Liu, X Pan. Honeycomb enhanced self-locked structure for energy absorption. International Journal of Applied Mechanics[J], 2022, 14(3), 2250019
[15]. H Liu, L Chen*, Y Zhou, X Pan,S Zhu*, W Li. Repeated energy absorption and multiple compressive responses of thermoplastic composite hierarchical cylindrical structures. Composites Science and Technology. 2022-4 (221)109306
[14]. H Liu, Y Zhou, L Chen*, X Pan,S Zhu*, T Liu, W Li. impact responses and energy absorption of lightweight glass fiber reinforced polypropylene composite hierarchical cylindrical structures. Thin-Walled Structures. 2023-3, (184)110468
[13]Shaowei Zhu, Xiaojun Tan, Bing Wang*, Jiqiang Hu, Shuai Chen, Li Ma, Linzhi Wu. Bio-inspired Multistable Metamaterials with Reusable Large Deformation and Ultra-high Mechanical Performance. Extreme Mechanics Letters[J]. 2019,52: 100548.
[12]Shaowei Zhu, Bing Wang*, Xiaojun Tan*, Jiqiang Hu, Lianchao Wang, Zhengong Zhou. A Novel Bi-material Sleeve-type negative stiffness structurevia Combining Rigidity with Softness. Composites Structures[J].
[11]Shaowei Zhu, Jiqiang Hu, Xiaojun Tan, BingWang*, ShuaiChen, Li Ma. Mechanics of Sandwich Panels with a Buckling-dominated Lattice Core: The Effects of The Initial Rod Curvatures. Composites Structures[J]. 2020, 251: 112669.
[10]Shaowei Zhu, Jiqiang Hu, Bing Wang*, Li Ma, Shixun Wang, Linzhi Wu. A fully parameterized methodology for lattice materials with octahedron-based structures. Mechanics of Advanced Materials and Structures[J]. 2019.
[9]Shaowei Zhu, Xiaojun Tan, Shuai Chen, Bing Wang*, Li Ma, Linzhi Wu, Quasi‐All‐Directional Negative Stiffness Metamaterials Based on Negative Rotation Stiffness Elements. Physica Status Solidi. B, Basic Solid State Physics[J]. 2020. 257: 1900538.
[8]Shaowei Zhu, Li Ma Li, Bing Wang*, Jiqiang Hu, Zhengong Zhou. Lattice Materials Composed by Curved Struts Exhibit Adjustable Macroscopic Stress-Strain Curves. Materials Today Communications[J].2018,14: 273-281.
[7] Xiaojun Tan, Shaowei Zhu, Bing Wang*, Kaili Yao, Shuai Chen, Peifei Xu, Lianchao Wang, YuguoSun, Mechanical response of negative stiffness truncated-conical shell systems: experiment, numerical simulation and empirical model. Composites Part B: Engineering[J]. 2020, 188: 10789.
[6] Jiqiang Hu,Shaowei Zhu, Bing Wang*, Ankang Liu, Li Ma, Linzhi Wu, Zhengong Zhou. Fabrication and compression properties of continuous carbon fiber reinforced polyether ether ketone thermoplastic composite sandwich structures with lattice cores. Journal of Sandwich Structures & Materials[J]. 2020
[5] Shuai Chen, Bing Wang*,Shaowei Zhu, Xiaojun Tan, Jiqiang Hu, Xu Lian, Lianchao Wang, Linzhi Wu, A novel composite negative stiffness structure for recoverable trapping energy. Composites Part A: Applied Science and Manufacturing[J]. 2020, 129: 105697.
[4] Xiaojun Tan, Bing Wang*,Shaowei Zhu, Shuai Chen, Kaili Yao, Peifei Xu, Linzhi Wu, Yuguo Sun. Novel multidirectional negative stiffness mechanical metamaterials. Smart Materials and Structures[J]. 2020,29: 015037.
[3] Bing Wang*; Xiaojun Tan;Shaowei Zhu, Shuai Chen, Kaili Yao; Peifei Xu; Lianchao Wang, Huaping Wu, Yuguo Sun, Cushion performance of cylindrical negative stiffness structures: Analysis and optimization, Composite Structures[J]. 2019, 227: 111276.
[2] Jiqiang Hu, Ankang Liu,Shaowei Zhu, Hanqi Zhang, Bing Wang*, Huayong Zheng, Zhengong Zhou. Novel panel-core connection process and impact behaviors of CF/PEEK thermoplastic composite sandwich structures with truss cores. Composites Structures[J]. 2020,251: 112659.
[1] Xiaojun Tan, Shuai Chen,Shaowei Zhu, Bing Wang*, Peifei Xu, Kaili Yao, Yuguo Sun. Reusable Metamaterial via Inelastic Instability for Energy Absorption. International Journal of Mechanical Sciences[J]. 2019, 155:509-517.
[4]重庆市自然科学基金博士后项目,10(0)万,2021,主持
[3]国家博士后基金面上项目,8万,2021,主持
[2]国防重点实验室基金,20万,2022,主持
[1]国家自然科学基金青年基金,30万,2023,主持
☆ 硕士生(力学相关专业):力信息学与数据驱动力学方向(可能开展子方向:轻量化结构知识图谱与数据挖掘;基于图神经网络的结构力学新方法;基于多模态生成式技术的结构设计方法);
☆ 本科生SRTP/本科毕设:1.基于CHAT AI技术的力信息数据整合及数据清洗;2.知识图谱,数据挖掘方法相关方向;4.力学超材料设计与研究;4.3D打印复合材料工艺力学;
☆ 学术合作:机器学习/数据驱动/模型可解释性相关方向
☆ 企业合作:机器学习/工业软件开发(力学/结构/仿真相关)/基于网络爬虫和CHAT AI技术专家系统构建
