职称：助理教授

邮箱：chenganchao@bitzh.edu.cn

所在学科：船舶工程，机械工程

研究方向：舰艇爆炸冲击毁伤与防护，冲击动力学，多功能超材料/结构设计与表征

个人简历：

2025.05-至今：北京理工大学（珠海）海洋科技学域 助理教授

2022.07-2025.04：北京理工大学先进结构技术研究院 博士后

2016.09-2022.06：华中科技大学船舶与海洋结构物设计制造专业 博士

2012.09-2016.06：华中科技大学船舶与海洋工程专业，本科

学术成果：

[1] Chen G, Cheng Y, Liu J*, et al. Blast resistance of metallic double arrowhead honeycomb sandwich panels with different core configurations under the paper tube-guided air blast loading. International Journal of Mechanical Sciences 2021; 201:106457.

[2] Chen G, Cheng Y, Zhang P*, et al. Contact underwater explosion response of metallic sandwich panels with different face-sheet configurations and core materials. Thin-Walled Structures 2020; 157:107126.

[3] Chen G, Cheng Y, Liu J*, et al. Paper tube-guided blast response of sandwich panels with auxetic re-entrant and regular hexagonal honeycomb cores - An experimental study. Engineering Structures 2022;253: 113790.

[4] Xu D, Chen G*, Li Y, et al. Experimental investigation on the ballistic performance of B4C/Aramid/UHMWPE composite armors against API projectile under different temperatures. Thin-walled Structures, 2024; 196: 111553.

[5] Chen G, Zhang P, Liu J*, et al. Experimental and numerical analyses on the dynamic response of aluminum foam core sandwich panels subjected to localized air blast loading. Marine Structures 2019; 65:343-361.

[6] Chen G, Cheng Y, Zhang P*, et al. Design and modeling of double arrowhead honeycomb sandwich panels for performance improvement under air blast loading. Journal of Sandwich Structures & Materials 2021;23(8):3574-605.

[7] Chen G, Cheng Y, Zhang P*, et al. Protective performance of sacrificial aluminum foam core sandwich panels vs. equivalent solid plates under direct and near-contact UNDEX conditions. Ships and Offshore Structures DOI: 10.1080/17445302.2024.2442154.

[8] Guo H, Chen G*, Cai L, et al. Synergetic damage behavior of aluminum foam-cored sandwich plates subjected to combined blast and fragment loading. Structures, 2025;80: 110151.

[9] Zhang S, Chen G*, Li Y, et al. Biomimetic dual-phase ceramic lattice architectures with enhanced mechanical and vibration isolation performances. Materials Today Communications, 2024; 39: 108742.

[10] Hu W, Chen G*, Li Y, et al. SMP-based anisotropic chiral metamaterials with tunable mechanical properties and band gap characteristics. Mechanics of Advanced Materials and Structures 2025, DOI: 10.1080/15376494.2025.2478604.

荣誉奖励：

中国造船工程学会科技进步特等奖，2024年

学术兼职及其他：

1. 中国造船工程学会会员

2. Composite Part B, Composite Structures, Thin-walled Structure, Marine Structures等多个SCI期刊审稿人