船舶与海洋工程系
办公电话:021-34208071
传真:021-34207441
电子邮件:min.zhao@sjtu.edu.cn
通讯地址:上海市东川路800号,WilliamHill中文官方网站,williamhill威廉希尔官网,水下工程研究所
2021-至今 WilliamHill中文官方网站,williamhill威廉希尔官网,研究员
2016-2021 WilliamHill中文官方网站,williamhill威廉希尔官网,副研究员
2009-2016 WilliamHill中文官方网站,williamhill威廉希尔官网,助理研究员
2004-2009 WilliamHill中文官方网站,williamhill威廉希尔官网,船舶与海洋结构物设计制造,工%A
1)潜水器(HOV、ROV、AUV、ARV)总体设计与系统集成
2)水下装备优化设计(潜水器多学科优化设计、水动力性能优化设计、深海耐压结构拓扑优化设计)
3)水下内爆研究(水下内爆动力学、流固耦合、防爆吸能结构设计)
2021至今 中国造船工程学会高级会员
2021至今 第一届深海装备技术学术委员会委员
2018至今 第十届船舶力学学术委员会深海装备学组副组长
2017至今 ISOPE潜水器技术委员会,委员
2016至今 上海市力学学会青年工作委员会,委员
2010至今 上海市造船学会,会员
《Ocean Engineering》杂志 审稿人
《Engineering Optimization》杂志 审稿人
《Advances in Mechanical Engineering》杂志 审稿人
《Journal of Ocean Engineering and Science》杂志 审稿人
《Journal of shanghai Jiaotong University (Science)》杂志 审稿人
《浙江大学学报(工学版)》杂志 审稿人
2021-2024,国家自然科学基金,核技术创新联合基金重点支持项目,“极端环境下深海小型核动力系统钛合金耐压支承结构内爆机理研究”(U2067220),项目负责人
2018-2021,国家自然科学基金,面上项目,“万米级深渊潜器陶瓷耐压结构内爆破链式效应的影响及对策研究”(51779139),项目负责人
2018-2019,中国大洋矿产资源研究开发协会项目,“万米级无人遥控潜水器系统—海龙11000恢复及海试”(DY-135-CZ-03),项目负责人
2016-2020,国家重点研发计划深海关键技术与装备重点专项,“全海深无人潜水器(ARV)研制”(2016YFC0300700),项目副总设计师,总体性能与结构安全技术负责人
2016-2018,国家发展与改革委员会海洋工程装备研发及产业化专项课题,“大型水下作业机器人系统的总体技术研发”,项目负责人
2011-2014,国家自然科学青年基金,“重水潜器多学科设计优化理论与方法研究”(51109132),项目负责人
2011-2014,教育部高等学校博士学科点专项科研基金,“基于多学科设计优化的重水潜器设计方法研究”(20110073120015),项目负责人
2010-2011,海洋工程国家重点实验室自主研究课题,“CFD在新概念高速潜水器设计中应用研究”(GKZD010043),项目负责人
[104] Mingyi Li , Jixie Huang, Jiancai Zheng*, Min Zhao*. Failure mechanisms of titanium alloy cylindrical pressure hulls under combined hydrodynamic pressure fields and implosion shock loading[J]. Physics of Fluids, 2025, 37(8).
[103] Jiancai Zheng, Ruchao Shi, Min Zhao*. A three-phase fluid–structure interaction algorithm for compressible flows and thin-walled structures based on the extended ghost fluid method[J]. Physics of Fluids, 2025, 37(9).
[102] Jiancai Zheng, Mingyi Li, Shengxia Sun, Tengwu He, Min Zhao*. Implosion impact behavior and damage mechanism of titanium alloy pressure hulls under deep-sea conditions at submerged plate boundaries[J]. Physics of Fluids, 2025, 37(7).
[101] Xinyu Zhang, Shengxia Sun, Min Zhao*, Tong Ge. Underwater Implosion Protection Effect of a Novel Thin-walled Composite Structure: Experiment and Simulation[J]. Thin-Walled Structures, 2025: 113930.
[100] 李明怡,赵敏*,郑建才*,黄己协.深海高压环境下钛合金圆柱壳内爆失效机制及冲击特性研究[J].中国舰船研究,1-12. https://doi.org/10.19693/j.issn.1673-3185.04523.
[99] Shengxia Sun, Min Zhao*, Xinyu Zhang, Jiancai Zheng, Tong Li. Suppression effect on implosion of ceramic pressure hull through porous protection based on flow control[J]. Physics of Fluids. 2025, 37 (1): 016141.
[98] Tao Xu, Xiaodong Huang, Qingdi Wang, Xiaoshan Lin, Ngoc San Ha, Min Zhao, Yi Min Xie*.Enhancing buckling resistance in topology optimization under pressure loading using a mixed formulation[J]. Computers & Structures, 2025, 316: 107884.
[97] Qingdi Wang, Lucas Oliveira Siqueira, Tao Xu, Min Zhao, Renato Picelli, Yi Min Xie*. Topology optimization of fluid–structure interaction problems with buckling constraints[J]. Computers & Structures, 2025, 318: 107978.
[96] Yuanteng Jiang, Tengwu He, Min Zhao*. Buckling-based topology optimization for underwater pressure hull with modified parameterized level-set method[J].European Journal of Mechanics-A/Solids,2025, 110: 105499.
[95] 高裕浩, 何腾武, 赵敏*. 基于 OpenMDAO 的 BLISS-2000 多学科设计优化: 流程, 策略与参数研究[J]. 中国舰船研究, 2024, 19(6): 135-149.
[94] Kexing Cai, Feifan Li, Tengwu He, Xiaoyu Wang, Min Zhao*, Lei Li*. Tow-way regulation strategy for in-situ electropolymerization additives coordinated by double bonds and boric acid groups in lithium secondary batteries[J].Chemical Engineering Journal,2024, 500: 156790.
[93] Xipeng Li, Yuming Qi, Tengwu He*, Min Zhao, Miaolin Feng*. Molecular dynamics simulations of high-energy radiation damage in hcp-titanium considering electronic effects[J]. Modelling and Simulation in Materials Science and Engineering, 2024, 32(7): 075009.
[92] Cheng Liu*, Xiaobin Yang, Jingqi Li, Yiding Hu, Min Zhao, and Changhong Hu. Investigations on the shock wave induced by collapse of a toroidal bubble[J]. Physical Review E, 2024, 110: 015103.
[91] Xinyu Zhang, Min Zhao*, Jie Xia, Tong Ge, Underwater Implosion Protection of a New Concept Composite Structure for a Deep-sea Hollow Ceramic Sphere with CFRP Shield, Ocean Engineering, 2024, 117985
[90] Xiujun Chai, Yuanlong Li, Lei Qiao*, Min Zhao, Terrain-aided navigation of long-range AUV based on cubature particle filter, IEEE Transactions on Instrumentation and Measurement, 2024, DOI: 10.1109/TIM.2024.3381301.
[89] 赵一凡, 赵敏,胡延东*, 冯淼林, 深海浮球内部气压对水下内爆波的抑制机理, 海洋工程, 2024, 1(42):106-114.
[88] Xiaobin Yang, Cheng Liu*, Yiding Hu, Min Zhao, Changhong Hu, Shock wave induced by the collapse of a bubble cluster with each bubble distributed randomly, Ocean Engineering, 2024, 117362.
[87] Zhengmiao Guo, Fan Yang*, Puhao Li, Lingbo Li, Min Zhao*, Junwu Shi*, Leihan Zhang, Yi Cai, A partially hollow BCC lattice structure with capsule-shaped cavities for enhancing load-bearing and energy absorption properties, Engineering Structures, 117777, 2024.
[86] Lingbo Li, Zhengmiao Guo, Fan Yang*, Pengfei Li, Min Zhao, Zheng Zhong*. Additively manufactured acoustic-mechanical multifunctional hybrid lattice structures, International Journal of Mechanical Sciences 2024, 109071.
[85] Shengxia Sun, Min Zhao*, Jiang Yuanteng, Numerical study of chain-reaction implosions in a spatial array of ceramic pressure hulls in the deep sea using a compressible multiphase flow model(Featured Article), Physics of Fluids, 2024, https://doi.org/10.1063/5.0184654.
[84] Tengwu He, Xipeng Li, Yuming Qi, Min Zhao*, Miaolin Feng*, Molecular dynamics simulation of primary irradiation damage in Ti-6Al-4V alloys, Nuclear Engineering and Technology, 2024, https://doi.org/10.1016/j.net.2023.12.001.
[83] Jiancai Zheng, Min Zhao*, Fluid-structure interaction of spherical pressure hull implosion in deep-sea pressure: Experimental and numerical investigation, Ocean Engineering, 116378, 2024.
[82] Yongmei Zhu*, Longhui Wang, Jiahao Yang, Wei Guan, Min Zhao, Jian Zhang, Buckling of externally pressurised ellipsoidal domes with variable wall thicknesses, , 2023, 19(5): 644-653.
[81] 贺宇培,郑建才,赵敏*. 环肋布局对钛合金耐压圆柱壳内爆响应特性的影响研究[J]. 舰船科学技术, 2023.
[80] 周荔丹, 张明珠, 姚钢*, 于天佑, 赵敏. 全直流型船舶微电网多时间尺度综合能量管理. 电机与控制学报, 2023, 27(09): 180-192.
[79] 夏㛃, 庄广胶, 王鹏, 赵敏, 葛彤. 基于拓扑优化方法的全海深无人潜水器本体浮力构件的防护结构设计. 中国造船. 2023, 64(05): 196-209.
[78] 陈鹏, 夏㛃*, 赵敏, 葛彤, 蔡新钢. 全海深ARV框架结构分析与试验验证. 船舶力学, 2023, 27(4): 590-597.
[77] 王鹏,尤云祥,庄广胶,赵敏*.全海深ARV抛载系统研发及深海试验.海洋工程, 2023, 41(1):82-92.
[76] 叶勇强,韩远飞*,赵敏, 黄光法, 吕维洁.钛合金辐照损伤缺陷表征与性能调控研究进展.航空材料学报, 2022, 42(6): 9-21.
[75] Yongmei Zhu*, Xialei He, Wei Liu, Wei Guan, Min Zhao, Jian Zhang. Ultimate strength of cylindrical shells with corrosion damage: Comparing theoretical and experimental results. International Journal of Pressure Vessels and Piping, 2023, 202, 104888.
[74] Shengxia Sun, Min Zhao*, Numerical simulation and analysis of the chain-reaction implosions of multi-spherical hollow ceramic pressure hulls in deep-sea environment, Ocean Engineering, 114247, 2023, https://doi.org/10.1016/j.oceaneng.2023.114247.
[73] Jiancai Zheng, Yupei He, Min Zhao*, Jie Xia*, Dynamic response analysis of spherical pressure hull implosion inside adjacent underwater structure, Ocean Engineering, 115169, 2023, https://doi.org/10.1016/j.oceaneng.2023.115169.
[72] Shengxia Sun, Min Zhao*,Numerical Simulation of Implosions in Chain Reaction and the Analysis of Different Implosion Beginning Positions, OMAE2023-102820, 2023.
[71] Jiancai Zheng, Yupei He, Min Zhao*, Numerical Study of Underwater Implosion of Spherical Pressure Hull on Deep-Sea Submersibles, OMAE2023-104797, 2023.
[70] Yandong Hu, Yifan Zhao, Min Zhao*, Miaolin Feng*, Double ceramic sphere's sympathetic implosions triggered by local impacts, Journal of Ocean Engineering and Science, JOES_479, 2023, https://doi.org/10.1016/j.joes.2023.04.001.
[69] Wu Yu, Luo Ruilong, Wang Fang, Zhao Min*, Xia Jie, Effect of the implosion of a deep-sea pressure hull on surrounding structures, Applied Ocean Research, 2023,132, 103477.
[68] Yiding Hu, Cheng Liu*, Min Zhao and Changhong Hu, High-fidelity simulation of an aerated cavity around a surface-piercing rectangular plate, Physical Review Fluids 2023, 8(4), DOI: 10.1103/PhysRevFluids.8.044003.
[67] Xiaobin Yang, Cheng Liu*, Jingqi Li, Yuxiao Yang, Min Zhao, Changhong Hu, Numerical study of liquid jet and shock wave induced by two-bubble collapse in open field, International Journal of Multiphase Flow, 104584, 2023, https://doi.org/10.1016/j.ijmultiphaseflow.2023.104584.
[66] Lingbo Li, Fan Yang, Siyuan Zhang, Zhengmiao Guo, Lihua Wang, Xin Ren, Min Zhao*, A novel hybrid auxetic honeycomb with enhanced load-bearing and energy absorption properties, Engineering Structures, 116335, 2023, https://doi.org/10.1016/j.engstruct.2023.116335.
[65] Yang, S.; Liang, P*.; Gao, F.; Song, D.; Jiang, P.*; Zhao, M.; Kong, N. The Comparation of Arrhenius-Type and Modified Johnson–Cook Constitutive Models at Elevated Temperature for Annealed TA31 Titanium Alloy. Materials 2023, 16, 280.
[64] Xiaobin Yang, Cheng Liu*, Jingqi Li, Min Zhao, Changhong Hu, Implosion of a bubble pair near a solid surface, Physical Review Fluids, 2023, 8, 023602.
[63] Wu Y, Ding, J, Wang F, Sun ZZ, Zhao M*, Wang YM, Research on the quasi-static collapse and instantaneous implosion of the deep-sea spherical pressure hull. Marine Structures. 2022, 83, 103191.
[62] Yuanteng Jiang, Ke Zhan, Jie Xia, Min Zhao*, Topology Optimization for Minimum Compliance with Material Volume and Buckling Constraints under Design-Dependent Loads, Applied Sciences, 2023, 13(1), 646.
[61] Yuanteng Jiang, Min Zhao*, Stress-based topology optimization with the parameterized level-set method based on radial basis functions, Structural and Multidisciplinary Optimization, 2022, 65:224.
[60] Yandong Hu, Yifan Zhao, Min Zhao*, Miaolin Feng*. Three phases fluid-structure interactive simulations of the deepsea ceramic sphere's failure and underwater implosion, Ocean Engineering, 245, 110494, 2022, https://doi.org/10.1016/j.oceaneng.2021.110494
[59] Shengxia Sun, Fenghua Chen, Min Zhao*. Numerical simulation and analysis of the underwater implosion of spherical hollow ceramic pressure hulls in 11000m depth, Journal of Ocean Engineering and Science, JOES_297, 2022, https://doi.org/10.1016/j.joes.2022.01.002
[58] 詹可, 蒋垣腾, 赵敏*. 设计相关动载荷作用下的水下耐压结构拓扑优化, 海洋工程, 2022.
[57] Yongmei Zhu, Wei Guan, Hao Wang, Min Zhao, Jian Zhang. Buckling of Spherical Shells with Pitting Corrosion under External Pressure, Ships and Offshore Structures, 2021,DOI 10.1080/17445302.2021.2000266
[56] Jianyu Liu, Min Zhao, Lei Qiao. Adaptive barrier Lyapunov function-based obstacle avoidance control for an autonomous underwater vehicle with multiple static and moving obstacles, Ocean Engineering, 2021, DOI: 10.1016/j.oceaneng.2021.110303
[55] Lei Qiao,Min Zhao, ChaoWu,Tong Ge, Rui Fan,Weidong Zhang. Adaptive PID control of robotic manipulators without equality/inequality constraints on control gains, International Journal of Robust and Nonlinear Control, 2021, DOI: 10.1002/rnc.5849
[54] Yunzhi Huang, Min Zhao*, Miaolin Feng*, Electric–elastic analysis of multilayered two-dimensional decagonal quasicrystal circular plates with simply supported or clamped boundary conditions, Mathematics and Mechanics of Solids, 2021, https://doi.org/10.1177/1081286520981618
[53] Yunzhi Huang, Jian Chen, Min Zhao*, Miaolin Feng*, Electromechanical coupling characteristics of double-layer piezoelectric quasicrystal actuators, International Journal of Mechanical Sciences, 196(2021)106293, https://doi.org/10.1016/j.ijmecsci.2021.106293
[52] Yunzhi Huang, Jian Chen, Min Zhao*, Miaolin Feng*, Responses of multilayered two-dimensional decagonal quasicrystal circular nanoplates with initial stresses and nanoscale interactions, European Journal of Mechanics / A Solids, 87(2021)104216, https://doi.org/10.1016/j.euromechsol.2021.104216
[51] Yuming Qi, Min Zhao*, Miaolin Feng*, Molecular simulation of microstructure evolution and plastic deformation of nanocrystalline CoCrFeMnNi high-entropy alloy under tension and compression, Journal of Alloys and Compounds, 2021(851), https://doi.org/10.1016/j.jallcom.2020.156923
[50] 陈锋华, 赵敏*.万米级深海耐压结构水下内爆的流场数值模拟, 海洋工程, 2021, 已录用.
[49] 蒋垣腾, 赵敏*. 水下耐压结构拓扑优化设计相关载荷径向基函数参数化水平集方法边界搜索方法, 船舶力学,2020,已录用.
[48] 张晓龙, 冯淼林, 赵敏*, 张培志, 何成贵, 祁海, 韩伟月, 郭方全. 氮化硅陶瓷空心浮力球在内爆临界状态下的失效分析, 海洋工程, 2020, 38(6):70-76
[47] Yuanteng Jiang, Min Zhao*, Topology optimization under design-dependent loads with the parameterized level-set method based on radial-basis functions, Computer Methods in Applied Mechanics and Engineering, 2020(369), https://doi.org/10.1016/j.cma.2020.113235
[46] Bin Zhou, Min Zhao*, Numerical Simulation of Thruster-thruster Interaction for ROV with Vector Layout Propulsion System, Ocean Engineering, 2020(210), https://doi.org/10.1016/j.oceaneng.2020.107542
[45] 万德成, 缪爱琴, 赵敏. 基于水动力性能优化的船型设计研究进展, 水动力学研究与进展,2019,34(6): 693-712.
[44] Xiaolong Zhang, Miaolin Feng, Min Zhao*, Peizhi Zhang, Chenggui He, Hai Qi, Weiyue Han, Fangquan Guo. Failure of silicon nitride ceramic flotation spheres at critical state of implosion, Applied Ocean Research, 2020(97).
[43] Aiqin Miao, Min Zhao, Decheng Wan, CFD-based Multi-Objective Optimisation of S60 Catamaran Considering Demihull Shape and Separation, Applied Ocean Research, 2020(97), 102071, https://doi.org/10.1016/j.apor.2020.102071
[42] Yan Meng, Xuesong Xu, Min Zhao. Dynamics calculation of complex deep-sea cable system based on hybrid optimization algorithm, Ocean Engineering, 200(15), 2020. https://doi.org/10.1016/j.oceaneng.2020.107041
[41] Min Zhao, Qingqing Yuan, Tao Wang, Tong Ge, and Weicheng Cui. Multidisciplinary Design Optimization of a Heavier-Than-Water Underwater Vehicle using a Semi-Empirical Model. International Journal of Offshore and Polar Engineering, 2019, 29(4):474-484.
[40] 袁庆晴,赵敏,葛彤,汪淳,基于欧拉模型的泥沙冲刷数值模拟, 哈尔滨工程大学报, 2019,40(1):47-53.
[39] Xiang Li, Min Zhao*, and Tong Ge. Nonlinear Observer for Remotely Operated Vehicle with Cable Effect in Ocean Current. Applied Sciences, 2018, 8(6), 867; https://doi.org/10.3390/app8060867
[38] Tao Wang, Jianqin Wang, Chao Wu, Min Zhao, Tong Ge. Disturbance-Rejection Control for the Hover and Transition Modes of a Negative-Buoyancy Quad Tilt-Rotor Autonomous Underwater Vehicle. Applied Sciences, 2018, 8(12), 2459; https://doi.org/10.3390/app8122459
[37] Xiaoyi Liu, Jianwei Wu, Min Zhao*, Decheng Wan. Hull Form Multi-objective Optimization for a Container Ship with Neumann-Michell Theory and Approximation Model. International Journal of Offshore and Polar Engineering, 2017, 27(4): 423-432.
[36] Qingqing Yuan, Min Zhao, Chun Wang, Tong Ge. The numerical study of 2D sand scour with the modified Eulerian model based on incipient motion theory, Marine Georesources & Geotechnology, 2017, 36(10).
[35] Shusen Zhang, Tong Ge, Min Zhao,and Chun Wang, The prediction of traveling jet trenching in stiff clay based on the erosion failure mechanism, Marine Georesources & Geotechnology, 2017, 35(7):939-945.
[34] Xiang Li, Jifeng Cui, Min Zhao*, and Tong Ge. Dynamic analysis of an underwater suspension system in ocean currents with method of averaging. Indian Journal of Geo Marine Sciences, 2017, 46(11):2220-2227.
[33] Yang Dai, Miaolin Feng, Min Zhao*. Topology optimization of laminated composite structures with design-dependent loads. Composite Structures, 2017, 167: 251-261.
[32] Jianwei Wu, Xiaoyi Liu, Min Zhao*, Decheng Wan. Neumann-Michell theory-based multi-objective optimization of hull form for a naval surface combatant. Applied Ocean Research, 2017, 63:129-141.
[31] Xiaoyi Liu, Qingqing Yuan, Min Zhao*, Weicheng Cui, Tong Ge. Multiple objective multidisciplinary design optimization of heavier-than-water underwater vehicle using CFD and approximation model, Journal of Marine Science and Technology (Japan), 2017, 22(1):135-148.
[30] 张晓龙, 冯淼林, 赵敏. 基于复合材料的水下耐压结构拓扑优化探究, 舰船科学技术, 2017, 39(10): 14-21.
[29] Cunfu Wang, Min Zhao*, Tong Ge. Structural topology optimization with design-dependent pressure loads. Structural and Multidisciplinary Optimization, 2016, 53: 1005-1018.
[28] Shusen Zhang, Min Zhao*, Tong Ge, and Chun Wang, Experimental Research on Trenching in Stiff Clay by Submerged Vertical Traveling Jets, Journal of Coastal Research, 2016, 32(2):365-373.
[27] Min Zhao*, Weicheng Cui, Xiang Li, Multidisciplinary Design Optimization of a Human Occupied Vehicle based on Bi-Level Integrated System Collaborative Optimization, China Ocean Engineering, 2014, 29(4):599-610.
[26] Min Zhao*, Weicheng Cui. On the Development of Bi-Level Integrated System Collaborative Optimization. Structural and Multidisciplinary Optimization,2011,43(1): 73–84.
[25] Qingqing Yuan, Min Zhao, Tong Ge, and Ammarah Raees. The Scour Prediction of Non-contact Trencher with Numerical Method. Proceedings of the International Conference on Numerical Analysis and Applied Mathematics 2014 (ICNAAM-2014) AIP Conf. Proc. 1648, 650009-1–650009-5.
[24] Xiang Li, Min Zhao*, Faming Zhao, Qingqing Yuan,Tong Ge, Study on hydrodynamic performance of Heavier-than-water AUV with overlapping grid method, Ocean Systems Engineering, 2014,4(1): 1-19.
[23] Xiang Li, Min Zhao*, Faming Zhao, Qingqing Yuan,Tong Ge, Study on hydrodynamic performance of Heavier-than-water AUV by overlapping grid techniques, Proceedings of the Eighth International Workshop on Ship Hydrodynamics, September 23-25, 2013, Seoul, Korea.
[22] 李翔,赵敏*,赵发明,袁庆晴,葛彤,基于重叠网格的重水潜器粘流数值模拟,船舶力学,2015,19(1-2):16-27.
[21] 王存福,赵敏*,葛彤,考虑失稳模式的环肋圆柱壳结构优化设计,WilliamHill中文官方网站学报,2014,48(1):56-63.
[20] 王喆,袁庆晴,马洪新,王磊,魏国涛,刘坤,赵敏*, 射流式挖沟机沟内流场数值计算与分析, 哈尔滨工程大学报, 2015,36(3):292-296.
[19] 颜翚,葛彤,刘建民,赵敏,重载深潜推进器性能分析及设计,船舶力学,2012,16(1-2):52-57.
[18] 颜翚,葛彤,赵敏,陈先,刘建民,全海深环境下高强度玻璃微珠复合浮力材料性能研究,WilliamHill中文官方网站学报, 2011,45 (9):1332-1335.
[17] 王喆,马洪新,李翔,王艳涛,李果,朱恒康,赵敏*,新型喷冲式挖沟机总体设计与结构安全性评估, 哈尔滨工程大学报, 2015,36(5):29-34.
[16] 王存福,赵敏*,葛彤,水下耐压结构拓扑优化设计方法探究,工程力学,2015,32(1):247-256.
[15] Chao Wu, Xuyang Wang, Guangjiao Zhuang, Min Zhao, Tong Ge. Motion of an underwater self-reconfigurable robot with tree-like configurations. Journal of Shanghai Jiaotong University (Science), 2013,18(5):598-605.
[14] Xiang Li, Tao Wang, Min Zhao*, Tong Ge. Lateral dynamic analysis and motion control of a jet trencher in ocean currents. Journal of Harbin Institute of Technology (New Series), 2017, 24 (1) :26-31.
[13] 戴扬,冯淼林,赵敏,基于复合材料的水下耐压结构拓扑优化探究,舰船科学技术,2017,39(10): 14-21.
[12] 王冠达,葛 彤,赵 敏,邓春楠,ROV 近底行走装置水平面动力学建模及稳定性分析,船舶工程,2015,37(1):95-99.
[11] 马洪新,张树森,王艳涛,王鑫,李海鲸,刘淑艳,赵敏,下桩基清除方法研究,2014,51(6):57-60.
[10] 张树森,赵敏,海底管线埋设沟槽边坡稳定性分析,港工技术,2014,51(5):29-32.
[9] 袁庆晴,程惠莹,赵敏*,葛彤,基于目标层解分析方法的重水潜器多学科设计优化,中国科技论文,2014,9(11):1209-1215.
[8] 马洪新,李翔,王磊,王亮,胡振国,谷万囤,赵敏,挖沟机抽吸扬泥系统设计与研究,中国造船(增刊),2014,55(1):362-369.
[7] 颜翚,葛彤,王彪,刘建民,赵敏, 基于iSIGHT重于水的无人自治潜水器概念设计及优化方法,海洋工程, 2013,31(3):77-83.
[6] 刘帅,葛彤,赵敏,基于源项法的潜艇旋臂试验模拟,大连海事大学学报, 2011, 37(2):1-4.
[5] Min Zhao, Weicheng Cui, System synthesis model for a HOV in conceptual design, Journal of Ship Mechanics, 2009, 13(3):426-443.
[4] 赵敏,崔维成,BLISCO方法在载人潜水器设计中的应用,船舶力学, 2009, 13(2):259-268.
[3] Zhao Min, Cao An-xi, Gou Peng, Cui Wei-cheng. Application of Efficient Global Optimization in Ship Mechanics. Journal of Ship Mechanics, 2008, 12(3):473-482.
[2] 赵敏, 操安喜, 崔维成. 多学科设计优化方法的比较. 中国造船, 2008, 49(3):68-78.
[1] Zhao Min, Cui Wei-cheng. Application of optimal latin hypercube and radial basis function network to collaborative optimization. Journal of Marine Science and Application, 2007, 6(3):24-32.
获得授权发明专利21项,实用新型10项
2025,国家级高层次人才
2024,中国造船工程学会科技进步一等奖,“深海耐压结构极端环境下内爆评估与防护技术及应用”
2021,国家级青年人才
2020,中国核工业集团有限公司青年科技创新“菁英人才”
