工作单位:海洋工程与技术学院 

专业资格:副教授、博士生导师

电子邮箱zhaob59@mail.sysu.edu.cn

研究方向:海洋微纳能源与自驱动智能系统、海洋摩擦学、海洋可再生能源开发与利用

招生专业:电子信息、机械工程、船舶与海洋工程、水声工程、自动化、力学

 

个人详细信息:

赵波,男,山东济南人,中共党员,“百人计划”副教授,博士生导师,中国海洋大学兼职硕士生导师。主要从事海洋微纳能源与自驱动系统/新型智能传感/海洋自供能监测、海洋工程装备系统摩擦动力学/润滑理论/减摩增寿优化、海洋可再生能源开发与利用等研究,主持包括国家自然科学基金(面上、青年)、国家某重大项目子课题、海洋横向、山东省重点研发计划等项目十余项。汉江国家实验室珠海研究中心、南方海洋实验室创新团队核心成员。在Nano EnergyChemical engineering Journal, Tribology International等顶级权威期刊共发表论文60余篇,授权国家发明/国际发明专利10余项。担任国家自然科学基金评审专家,教育部学位论文中心评审专家,青岛协同创新研究院评审专家。

 

教育经历:

2017.04-2018.04,新加坡南洋理工大学,电子电气工程学院,Research Fellow

2016.03-2017.03,新加坡南洋理工大学,机械与宇航工程学院,Research Fellow

2015.01-2018.05,上海交通大学,动力工程及工程热物理流动站,博士后

2009.09-2015.01,上海交通大学,机械与动力工程学院,获工学博士学位(硕博连读)

 

工作经历:

2022.08-至今,中山大学,海洋与工程技术学院,副教授(“百人计划”引进)

2018.05-2022.07,中国海洋大学,工程学院,副教授(入选“青年英才工程”)

 

主持科研项目:

[1]   国家自然科学基金面上项目,2024/01/01-2027/12/31,主持

[2]   国家自然科学基金青年项目,202001-202212月,主持

[3]   国家某重大项目子课题,2023/06/01- 2027/06/30,主持

[4]   海洋某专项,450万,2024/5-2025/4,主持

[5]   海洋某横向,200万,2024/2-2024/12,主持

[6]   海洋某横向,100万,2026/3-2027/6,主持

[7]   某培育项目,50万,2021/6-2023/12主持

[8]   某培育项目,20万,2019/5-2021/6主持

[9]   山东省重点研发计划(重大科技创新工程)项目子课题,高速磁浮列车减振降噪技术研究,80万,2020/12-2023/12

[10] 机械传动国家重点实验室,滚动界面微动磨损和疲劳竞争失效机制研究,2023/01/01- 2024/12/31,主持

[11] 高校委托项目,发动机关键接触副建模及动力学分析,2019/1-2020/1,主持

[12] 企业委托项目,重载机械系统生命期性能数字样机,2018/5-2018/12,主持

[13] 中国博士后科学基金(一等资助),海上浮动式风力发电机变桨轴承疲劳损伤预测方法研究,2018/11-2020/05,主持

[14] 中国博士后科学基金会(一等资助),基于磨损预测模型的机械系统全生命期性能研究,2015/05-2018/04, 主持

[15] 工信部项目,2016/05-2020/12300万,参加

[16] 企业委托项目,2017/10-2020/12,参加

 

近年来代表性学术论文:

[1]   Zhao Bo*, Wang Shijun, Ju Xiangcheng, Xie Zhongliang*. A novel approach for modeling misaligned water-lubricated stern bearings with wave-shock effects during start-up. Tribology International, 2025,214:111260IF: 6.9,中科院一区,TOP

[2]   Zhao Bo* Yimin Wang, Shifan Huang, Taili Tian, Xinqin Liao, Wensong Wang, Zhenglin Li*; High-durability pendulum-structuredTENG-EMG hybrid with stacked liquid-solidtriboelectric lavers for efficient low-frequency ocean wave energy capture. Chemical engineering journal, 2025, 168505 (IF:13.5,中科院一区,TOP)

[3]   Taili TianBo Zhao*,Yimin Wang, Shifan Huang, Xiangcheng Ju, Yuyan FanFirst-Principles Study on Interfacial Triboelectrification Between Water and Halogen-Functionalized Polymer Surfaces.July 2025, Lubricants 13(7):303

[4]   Guang Xiong, Qingbing Dong*, Bo Zhao, Xiujiang Shi, Chunhua Ran, Xueyu Bai, Modeling of torsional fatigue failure and experimental investigation, Engineering Failure Analysis, 2025.109892.

[5]   Zhuang Chen; Qingbing Dong*; Tongyang Li; Zhongliang Xie; Bo Zhao*Bilateral wear analysis of crowned spline coupling subject to angular misalignmentEngineering Failure Analysis2025174109524

[6]   Zhiyong Wang, Qingbing Dong*, Bo Zhao*. A Starved Lubrication Model: Applications to Evaluate Gear Mesh and Response Prediction of Material Plasticity.Lubricants 2024, 12(12), 414.

[7]   Bo Zhao*,Shifan Huang,Yutao Zhang,Xiangcheng Ju,Chengbang Li,Zhenglin Li*,Lingji XuMolecular Dynamics Study on the Tribological Characteristics of Grain Boundary-Containing Graphene/h-BN Heterostructure Films.Lubricants2024, 12(8), 296 

[8]   Guang Xiong, Qingbing Dong*, Xiujiang Shi, Bo Zhao*, Fei Shen. An elastic-plastic damage model of rolling contact fatigue considering nonmetallic inclusion.International Journal of Fatigue, November 2024, 108511(IF: 6.8, 中科院一区,TOP)

[9]   Zhao Bo, Shijun Wang, Peng Xiao, Lingji Xu*, Xinqing Hu, Xiancai Si, and Yonghui Liu*. The Tribo-Dynamics Performance of the Lubricated Piston Skirt–Cylinder System Considering the Cylinder Liner Vibration. Lubricants. 2022; 10(11): 319.

[10] Zhao Bo*; Li Zihao; et al.. A heaving point absorber-based ocean wave energy convertor hybridizing a multilayered soft-brush cylindrical triboelectric generator and an electromagnetic generator. Nano Energy 2021, 89, 106381. (IF: 19.07中科院一区,TOP)

[11] Zhao Bo*, Zhang Yutao, et al.. The three-body abrasive tribological characteristics of the Graphene/h-BN heterostructure film considering defects. Tribology International. 2022, 171107525. (IF: 6.9, 中科院1,TOP)

[12] Zhao Bo*Hu Xinqing, et al.. A new approach for modeling and analysis of the lubricated piston skirt-cylinder system with multi-physics coupling. Tribology International. 2022;167:107381. IF: 6.9, 中科院1,TOP)

[13] Zhao Bo*, Hu Xinqing, et al.. A New Approach for Modeling Mixed Lubricated Piston-Cylinder Pairs of Variable Lengths in Swash-Plate Axial Piston Pumps. Materials 2021, 14, 5836. (IF:3.748, Q1)

[14] Zhao Bo*, Yu Xiaotong, et al.. Frictional characteristics of heterostructure film composed of graphene and H-BN with the consideration of defects. Tribology International. 2021, 153, 106607, (IF: 6.9, 中科院1,TOP)

[15] Zhao Bo*, Zhang B, et al.. Modelling three-dimensional soft elastohydrodynamic lubrication contact of heterogeneous materials. Tribology International. 2018. (IF: 6.9, 中科院1,TOP)

[16] Bo Zhao, Fei Shen, Yi Cui, Youbai Xie, Kun Zhou*, "Damage analysis for an elastic-plastic body in cylindrical contact with a rigid plane", Tribology International. 115: 18-27(2017). (IF: 6.9, 中科院1,TOP)

[17] Bo Zhao, Xudong Dai, Zhinan Zhang, Youbai Xie, "A new numerical method for piston dynamics and lubrication analysis", Tribology International, 94: 395-408 (2017). (IF: 6.9, 中科院一区,TOP)

[18] Bo Zhao*, Zhinan Zhang, Congcong Fang, Xudong Dai,  Youbei Xie, "Modeling and analysis of planar multibody system with mixed lubricated revolute joint", Tribology International. 98: 229-241(2017). (IF: 6.9, 中科院1,TOP)

[19] Bo Zhao*, Kun Zhou, and YouBai Xie, "A new numerical method for planar multibody system with mixed lubricated revolute joint", International Journal of Mechanical Sciences. 113: 105-119 (2017). (IF: 9.4,中科院一区,TOP)

[20] Bo Zhao*, Xudong Dai, Zhinan Zhang, Youbai Xie, "Numerical study of the effects on clearance joint wear in flexible multibody mechanical systems", Tribology Transactions. 58.3: 385-396(2016). 

[21] Bo Zhao*, Yi Cui, Youbai Xie, Kun Zhou, "Dynamics and lubrication analyses of a planar multibody system with multiple lubricated joints." Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology. 2018,232(3),326-346. 

[22] Zihao Li, Yiran Li, Longfei Qiao, Bo Zhao *, A novel ocean wave energy converter hybridizing a multilayered soft-brush cylindrical triboelectric generator and an electromagnetic generator. The 3rd International Conference on Vibration and Energy Harvesting Applications 9-12 July 2021 | Xi'an, Shaanxi, China.

[23] Bo Zhao*, Xinqing Hu, Research on Dynamics and Tribological Performance of Piston System Considering Cylinder Liner Vibration,19th Asia Pacific Vibration Conference – APVC2021 Qingdao,China

[24] Bo Zhao*, Xiaojun Liu, Baocheng Zhang. Vibration characteristics of a liquid filled pipeline with the viscoelastic support,19th Asia Pacific Vibration Conference – APVC2021 Qingdao,China

[25] Bo Zhao, Fei Shen, “A numerical coupling model for a multibody system with multiple lubricated clearance joints”, Malacca,108:15006 (2017). 

[26] Liang Wang, Bo Zhao, Jiayi Wu, Chuanyong Chen, Kun Zhou*, “Experimental and numerical investigations on failure behaviors of woven fabric composites under off-axial loading”, International Journal of Mechanical Sciences.2018141157-167 (IF: 9.4,中科院一区,TOP)

[27] Shen Fei, Bo Zhao, Lin Li, Chee Kai Chua, Kun Zhou*, "Fatigue damage evolution and lifetime prediction of welded joints with the consideration of residual stresses and porosity", International Journal of Fatigue, 103: 272–279(2017) . (IF: 6.8, 中科院一区,TOP)

[28] Yang, L.Gao, W.Yang, J.Zhao, B.Liu, L.A novel active control strategy with decentralized decoupling and wavelet packet transformation: Design and verification, Applied Sciences (Switzerland) , 2021, 11(8), 3554

[29] Zhang, B, Deng, Z, Miao, Y, Zhao, B, Wang, Q, Zhang, K. Optimization of energy-capture performance of point-absorber wave energy converter. Int J Energy Res. 2022; 1- 12. doi:10.1002/er.7816

[30] Haipeng Zhang, Lihua Yang, Pan Su, Shuyong Liu , Bo ZhaoThe influence of the controlling delay time on two-degree-of-freedom system with a high-static-low-dynamic-stiffness isolator Journal of Vibroengineering, Vol. 22, Issue 4, 2020, p. 751-761.

[31] Fang, C. , Meng, X. , Lu, Z. , Wu, G. , Tang, D. , & Zhao, B. . (2018). Modeling a lubricated full-floating pin bearing in planar multibody systems. Tribology International, 131, 222-237. (IF: IF: 6.9, 中科院一区,TOP)

[32] Congcong Fang, Xianghui Meng*, Xiaoli Kong, Bo Zhao, Hongchen Huang, "Transient tribo-dynamics analysis and friction loss evaluation of piston during cold-and warm-start of a SI engine." International Journal of Mechanical Sciences, 133: 767–787). (IF: 9.4,中科院一区,TOP)

[33] Lichun Bai, Narasimalu Srikanth, Bo Zhao, Bo Liu, Zishun Liu, Kun Zhou*, "Lubrication mechanisms of graphene for DLC films scratched by a diamond tip", Journal of Physics D: Applied Physics 49: 485302. 

[34] Jun Liu, Zhinan Zhang*, Bo Zhao, Youbai Xie, "A new asperity interaction model considering transient flash temperature and inhomogeneous distribution of oil viscosity." Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology. 231.3: 347-356(2018). 

[35] Lu, X., Dong, Q. B., Zhou, K., Zhao, B., & Zhao, B. (2018). Numerical analysis of transient elastohydrodynamic lubrication during startup and shutdown processes. Journal of Tribology.2018,140,4 

[36] Wang Chen,Wang Yimin, Zhao Bo*, Hou Zhengyu*.Pendulum-Structured Hybrid Wave Energy Harvester with Stacked Liquid-Solid Triboelectric and Electromagnetic Generators for Efficiently Low-Frequency Energy Conversion.Tribo-Energy & Sensing (TE&S) 2026 Conference, which will take place from 2021 January 2026, Stockholm, Sweden.

[37] Wang Yimin, Wang Chen,Zhao Bo*, Hou Zhengyu*.A Self-Powered Buoy Based on the Combined Effects of Electrostatic Induction and Direct-Current Discharge for Marine Energy Harvesting. Tribo-Energy & Sensing (TE&S) 2026 Conference, which will take place from 2021 January 2026, Stockholm, Sweden.

[38] Zihao Li, Yiran Li, Longfei Qiao , Bo Zhao *, A novel ocean wave energy converter hybridizing a multilayered soft-brush cylindrical triboelectric generator and an electromagnetic generator. The 3rd International Conference on Vibration and Energy Harvesting Applications 9-12 July 2021 | Xi'an, Shaanxi, China.

[39] Bo Zhao*, Xinqing Hu, Research on Dynamics and Tribological Performance of Piston System Considering Cylinder Liner Vibration,19th Asia Pacific Vibration Conference – APVC2021 Qingdao,China

[40] Bo Zhao*, Xiaojun Liu, Baocheng Zhang. Vibration characteristics of a liquid filled pipeline with the viscoelastic support,19th Asia Pacific Vibration Conference – APVC2021 Qingdao,China

 

专利及软著:

[1]  基于静电感应-直流放电复合效应的自供能浮标装置.国家发明专利,ZL 2025 1 0043540.6,授权公告日:20251010日,中山大学

[2]  一种新型高耐久能源自供给海洋监测浮标.国家发明专利,专  号:ZL 2024 1 0429123.0 ;

[3]  一种仿生机器鱼.国家发明专利,申请(专利)号:202410974556.4,申请日期:2024-10-11

[4]  一种用于波浪能俘获的球形摩擦纳米发电机的多物理场耦合建模方法国家发明专利,(ZL 2019 1 0626186.4

[5]  一种内燃机活塞-缸套摩擦副动力学与摩擦学耦合的建模方法国家发明专利,(ZL 2929 1 1252877.1)

[6]  OMNIDIRECTIONAL BISTABLE TRIBOELECTRIC NANOGENERATOR-BASED WAVE ENERGY HARVESTER, 国际发明专利,(专利号:2022/02194

[7]  一种双稳态摩擦起电波浪能发电装置,国家发明专利, 202210110093.8

[8]  Method for optimizing mounting base structure of offshore platform device,国际发明专利,(专利号:2020101263)

[9]  基于磁流变阻尼器的直升机抗坠毁座椅,国家发明专利,(ZL 201811580467.2

[10] 一种用于轨道交通的金属丝网减振器、设计方法及系统,专利号:ZL 2022 1 1370509.6

[11] 内燃机活塞-缸套系统动力学与摩擦学性能分析软件V1.0  (登记号:2021SR0167564)

[12] 双层盘式三相交流永磁无刷发电机仿真分析软件,著作权编号:RZTA20240387

[13] 基于STM32的串口数据远程智能显示终端系统 V1.0,著作权编号:RZTA20260062

 

指导学生:

[1]   指导研究生获8项国家级和2项省部级竞赛奖励;

[2]   指导学生获省级和校级优秀毕业生各1人;

[3]   校级优秀学士学位论文1次。