朱绍伟,1991出生于汉中市宁强县。现工作单位为suncitygroup太阳集团,主要从事力学超材料、轻质多功能结构、复合材料结构等的力学建模、变形机理研究、力学行为表征与分析等工作。
学术主页:https://www.researchgate.net/profile/Shaowei-Zhu/research?ev=prf_act
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~至今 suncitygroup太阳集团 suncitygroup太阳集团 弘深青年教师、博士后(合作导师:陈立明)
2021.4~至今 suncitygroup太阳集团 suncitygroup太阳集团 助理研究员
[15] 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,
[14] 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].2021
[13] 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
[12] 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
[11] 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.
[10] 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
[9] 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.
[8] 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
[7]Lianchao Wang,Shaowei Zhu,Bing Wang*,Xiaojun Tan*, Yajun Zou,Shuai Chen,Shuai Li. Latitude-and-longitude-inspired three-dimensional auxetic metamaterials,Extreme Mechanics Letters[J],2021
[6] Shuai Chen, Bing Wang*, Shaowei Zhu, Xiaojun Tan, Jiqiang Hu, Xu Lian, Lianchao Wang, Linzhi Wu, A novel composite negative stiffness structure for re-coverable trapping energy. Composites Part A: Applied Science and Manufactur-ing[J]. 2020,
[5] Xiaojun Tan, Bing Wang*, Shaowei Zhu, Shuai Chen, Kaili Yao, Peifei Xu, Linzhi Wu, Yuguo Sun. Novel multidirectional negative stiffness mechanical metamateri-als. Smart Materials and Structures[J]. 2020
[4] 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
[3]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. Com-posites Structures[J]. 2020
[2]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
[1]Lianchao Wang, Xiaojun Tan, Shaowei Zhu, Bing Wang, Shuai Li, Yajun Zou, Shuai Chen. Directional instability-driven strain-dependent 3D auxetic metamaterials, International Journal of Mechanical Sciences,2021
[1] 王兵,朱绍伟, 吴林志, 马力. 一种点阵材料等效力学性能分析系统. 中国,CN105205213B [P]. 2018-07-03.(已授权)
[2] 王兵,陈帅,谭小俊,朱绍伟,邹亚军,胡记强,王连超,连续. 一种复合型负刚度吸能蜂窝结构及其制备方法CN110792710A [P]. 2020-02-14.(在审)
[1] 微点阵结构力学性能及其尺寸效应研究, 国家自然科学基金面上项目(11572102),2016.1,参与
[2] 具有负刚度特性的多孔结构设计及其吸能特性研究. 国家自然科学基金面上项目(11972008),2020.1,参与