姓名：马卫诚 职称：预聘助理教授 教师类型：教学科研 团队名称：智能制造技术研究中心 邮箱：wwshma@bitzh.edu.cn

研究领域：

晶格超材料设计方法、结构形状与拓扑优化、基于力学的有限元仿真、三重周期极小曲面、微点阵结构增材制造

教育经历：

2017年8月–2021年9月：香港科技大学机械工程学专业博士学位

2012年8月–2016年7月：哈尔滨工业大学工程力学专业学士学位

工作经历：

2026年1月–今：北京理工大学(珠海校区)能源交通学域预聘助理教授

2025年4月–2025年10月：香港理工大学机械工程学系 博士后研究员

2022年9月–2025年3月：香港中文大学机械与自动化工程学系 博士后研究员

2021年10月–2022年8月：香港科技大学机械与航空航天工程学系 博士后研究员

学术成果：

[1] Winston Wai Shing Ma^†, Lei Zhang^†, Junhao Ding, Shuo Qu, Michael Yu Wang, Xu Song^*, Ming Wang Fu^*. Rib-reinforced ultralight and ultra-strong shell lattices. Advanced Science, 2026: e18357.

[2] Winston Wai Shing Ma^†, Hang Yang^†, Yijing Zhao, Xinwei Li, Junhao Ding, Shuo Qu, Quyang Liu, Zongxin Hu, Rui Li, Quanqing Tao, Haoming Mo, Wei Zhai^*, Xu Song^*. Multi-physical lattice metamaterials enabled by additive manufacturing: design principles, interaction mechanisms, and multifunctional applications. Advanced Science, 2025, 12(8): 2405835.

[3] Junhao Ding^†, Qingping Ma^†, Xinwei Li, Lei Zhang, Hang Yang, Shuo Qu, Michael Yu Wang, Wei Zhai^*, Huajian Gao^*, Xu Song^*. Imperfection-enabled strengthening of ultra-lightweight lattice materials. Advanced Science, 2024, 11(41): 2402727.

[4] Qingping Ma, Lei Zhang, Junhao Ding, Shuo Qu, Jin Fu, Mingdong Zhou, Ming Wang Fu, Xu Song, Michael Yu Wang^*. Elastically-isotropic open-cell minimal surface shell lattices with superior stiffness via variable thickness design. Additive Manufacturing, 2021, 47: 102293.

[5] Qingping Ma, Lei Zhang, Michael Yu Wang^*. Elastically isotropic open-cell uniform thickness shell lattices with optimized elastic moduli via shape optimization. Materials & Design, 2022, 215: 110426.

[6] Qingping Ma^†, Zhenjun Yan^†, Lei Zhang^*, Michael Yu Wang. The family of elastically isotropic stretching-dominated cubic truss lattices. International Journal of Solids and Structures, 2022, 239-240: 111451.

[7] Qingping Ma, Lei Zhang, Junhao Ding, Shuo Qu, Jin Fu, Ming Wang Fu, Xu Song^*, Michael Yu Wang^*. Analytical design of stretching-dominated truss lattices with tailored elasticity from transversely isotropic base materials. Materials & Design, 2023, 230: 111995.

[8] Hui Liu^†, Winston Wai Shing Ma^†, Junhao Ding, Shuo Qu, Rui Li, Qi Ge, Michael Yu Wang, Xu Song^*. Hierarchical triply periodic minimal surface shell lattices with superior isotropic elasticity: design guidelines, fabrication, and validation. Additive Manufacturing, 2024, 94: 104451.

[9] Hui Liu, Masatoshi Shimoda, Yelin Song, Changjun Han, Winston Wai Shing Ma^*, Xu Song^*. Stiffness and strength enhancement of triply periodic minimal surface-based shell lattices via a novel shape optimization framework. Social Science Research Network (Preprint), 2025: 5591694.

[10] Lili Wang^†, Jingxuan Feng^†, Xiaoya Zhai^*, Jiacheng Han, Kai Chen, Winston Wai Shing Ma, Ligang Liu, Xiao-Ming Fu. Data-driven inverse design of multifunctional bicontinuous multiscale structures. Nature Communications, 2026

[11] Yunkai Zhao^†, Lili Wang^†, Xiaoya Zhai^{†, *}, Jiacheng Han, Winston Wai Shing Ma, Junhao Ding, Yonggang Gu, Xiao-Ming Fu. Near-isotropic, Extreme-stiffness, Continuous 3D Mechanical Metamaterial Sequences Using Implicit Neural Representation. Advanced Science, 2025, 12(3): 2410428.

[12] Lei Zhang, Qingping Ma, Junhao Ding, Shuo Qu, Jin Fu, Ming Wang Fu, Xu Song^*, Michael Yu Wang^*. Design of elastically isotropic shell lattices from anisotropic constitutive materials for additive manufacturing. Additive Manufacturing, 2022, 59: 103185.

[13] Rui Li, Winston Wai Shing Ma, Tianxiao Niu, Hui Liu, Junhao Ding^*, Xu Song^*. Stiffness and strength enhancement of hierarchical TPMS-based shell lattices via inter-level conformal design. Additive Manufacturing, 2025, 105: 104802.

[14] Michael Yu Wang^*, Hongming Zong, Qingping Ma, Ye Tian, Mingdong Zhou. Cellular level set in B-splines (CLIBS): A method for modeling and topology optimization of cellular structures. Computer Methods in Applied Mechanics and Engineering, 2019, 349: 378-404.

[15] Hongming Zong, Hui Liu, Qingping Ma, Ye Tian, Mingdong Zhou, Michael Yu Wang^*. VCUT level set method for topology optimization of functionally graded cellular structures. Computer Methods in Applied Mechanics and Engineering, 2019, 354: 487-505.

[16] Tianyu Gao, Kai Liu, Qingping Ma, Junhao Ding, Zongxin Hu, Kai Wei, Xu Song^*, Zhendong Li, Zhonggang Wang^*. Unveiling the mechanics of micro-LPBF manufactured hierarchical composites: a novel FE²-nested homogenisation approach. Virtual and Physical Prototyping, 2025, 20(1): e2456693.

[17] Zongxin Hu, Junhao Ding, Shuwei Ding, Winston Wai Shing Ma, Jun Wei Chua, Xinwei Li^*, Wei Zhai^*, Xu Song^*. Machine Learning – enabled Inverse Design of Shell-based Lattice Metamaterials with Optimal Sound and Energy Absorption. Virtual and Physical Prototyping, 2024, 19(1): e2412198.

[18] Lei Zhang^†, Mingpei Cang^†, Junhao Ding, Winston Wai Shing Ma, Xiangyang Zhu, Yang Lu, Xu Song, Huachen Cui^*, Michael Yu Wang^*. Metallic perforated plate lattices with superior buckling strength. Materials & Design, 2025, 249: 113544.

[19] Jiacheng Han, Xiaoya Zhai^*, Lili Wang, Di Zhang, Junhao Ding, Winston Wai Shing Ma, Xu Song, Wei-Hsin Liao, Ligang Liu, Jun Wu, Xiao-Ming Fu. Inverse-designed 3D Sequential Metamaterials Achieving Extreme Stiffness. Materials & Design, 2024, 247: 113350.

[20] Ruiguang Chen, Shanshan Wang, Zhining Wu, Yunfeng Jia, Weijian Zhang, Boxuan Cao, Xu Song, Qingping Ma, Changlin Li^*, Jianjun Du^*, Suzhu Yu^*, Jun Wei^*. Compressive enhancement gyroid lattice with implicit modeling implementation and modified G-A model property prediction. Materials & Design, 2023, 232: 112153.

[21] Hui Liu^*, Ye Tian, Hongming Zong, Qingping Ma, Michael Yu Wang^*, Liang Zhang. Fully parallel level set method for large-scale structural topology optimization. Computers & Structures, 2019, 221: 13-27.

[22] Yelin Song, Qingping Ma, Yu He, Mingdong Zhou^*, Michael Yu Wang. Stress-based shape and topology optimization with cellular level set in B-splines. Structural and Multidisciplinary Optimization, 2020, 62(5): 2391-2407.

[23] Hui Liu^*, Hongming Zong, Ye Tian, Qingping Ma, Michael Yu Wang^*. A novel subdomain level set method for structural topology optimization and its application in graded cellular structure design. Structural and Multidisciplinary Optimization, 2019, 60(6): 2221-2247.

[24] Shuo Qu, Liqiang Wang, Junhao Ding, Jin Fu, Shiming Gao, Qingping Ma, Hui Liu, Ming Wang Fu, Yang Lu^*, Xu Song^*. Superelastic NiTi functional components by high-precision laser powder bed fusion process: the critical roles of energy density and minimal feature size. Micromachines, 2023, 14(7): 1436.

[25] Fuwen Zheng^†, Di Zhang^†, Xiaoya Zhai^*, Qingping Ma, Ligang Liu, Xiao-Ming Fu. Programmable 3D metamaterials with tailored Poisson’s ratios over large deformation. Research Square (Preprint), 2024.

(^†: 共同第一作者, ^*: 通讯作者, 曾用名: Qingping Ma)

科研项目：

[1] 香港研究资助局优配研究基金: 3D hierarchical shell-based lattice structures with highly tunable mechanical properties: implicit design and high-precision additive manufacturing (No. 14209523, 112万港元), 2024.01–2026.12, 在研, 参与.

[2] 香港创新科技署创新科技基金: AI-enabled design of permeable protective headgear for the older adults (No. ITP/058/23TP, 139万港元), 2024.03–2026.03, 在研, 参与.

[3] 香港创新科技署创新科技基金: Breathable lightweight hip protectors for elderly in nursing homes (No. ITP/028/22TP, 179万港元), 2023.01–2024.12, 结题, 参与.

[4] 香港研究资助局优配研究基金: Open-cell plate-lattice mechanical metamaterials made with additive manufacturing techniques (No. 16203321, 66万港元), 2021.10–2024.09, 结题, 参与.

[5] 香港创新科技署创新科技基金: Development of ultra-light and high-strength shellular materials: design and additive manufacturing (No. ITS/008/19, 112万港元), 2020.01–2021.09, 结题, 参与.

荣誉奖励：

[1] 荣获第5届亚洲创新与发明展览会(香港)金奖: Mass customisation of breathable lightweight hip protectors for the older people via automatic inverse design and 3D printing (排名：5/10), 2025年12月.

[2] 荣获第50届日内瓦国际发明展金奖: 为长者设计的轻巧透气舒适髋部护垫 (排名：7/9), 2025年4月.

[3] 入选香港创新科技署"创新及科技基金研究人才库"计划, 2022年9月.

[4] 荣获哈尔滨工业大学"优秀本科毕业生"荣誉称号, 2016年5月.

社会兼职：

担任Advanced Science、Additive Manufacturing、Thin-Walled Structures、Materials & Design、Structural and Multidisciplinary Optimization等国际顶级SCI期刊审稿人.