☆导师简介

姓名：戴卫兵，副教授，硕士生导师

河南商丘人，1989年10月生，东北大学机械设计及理论专业博士研究生，担任Advaced Engineering Informatics、International Journal of Fatigue、Ceramics International、Engineering Failure Analysis、Measurement等期刊审稿人。主要从事轻金属表面强化、人工智能和疲劳寿命建模等研究工作，共发表SCI论文49篇（一作高水平论文11篇）、EI论文3篇，出版学术著作1部，申报发明专利14项，授权专利3项，授权软件著作权5项；主持中国博士后基金特别资助项目1项、省级科技厅和教育厅项目2项、校级项目1项，参与国家自然科学基金重大专项和青年基金项目2项、中国博士后基金面上项目1项；指导研究生和本科生参加科技竞赛，获国家级奖7项，省级奖41项；在国内重要学术会议做了8次学术报告，其中3次为特邀报告，担任《表面技术》、《材料热处理学报》、《材料保护》和《电镀与精饰》学术期刊青年编委与《Coating》期刊特邀编辑，研究成果获得国内外同行专家的高度认可。

研究方向

（1）金属材料的表面处理工艺;

（2）金属及其含涂层材料的机械性能、耐磨性和耐腐蚀性研究;

（3）含陶瓷涂层材料结构动力学特性研究。

论文成果

代表性学术著作和论文：

1.戴卫兵，李常有，郭辰光. 铝合金微弧氧化的疲劳性能及其优化[M]. 机械工业出版社，2025.

2.戴卫兵，张册，郭辰光，等.微弧氧化涂层对铝合金疲劳性能影响与改进途径研究进展[J]. 表面技术，2025，54(17)：18-32.

3.Dai Weibing, Zhang Ce, Guo Chenguang, Li Zhaoji, Yue Haitao, Li Qiang, Zhang Jianzhuo, Shang Zuen. Effect of grit blasting on fatigue behavior of 2024-T3 aero Al alloy [J]. Journal of Materials Research and Technology, 2024, 32:519-529.

4.Dai Weibing, Zhang Ce, Yue Haitao, Li Qiang, Guo Chenguang, Zhang Jianzhuo, Zhao Guochao, Yang Xinle. A review on the fatigue performance of micro-arc oxidation coated Al alloys with micro-defects and residual stress [J]. Journal of Materials Research and Technology, 2023, 25:4554-4581.

5.Zhang Jianzhuo, Dai Weibing (通讯作者), Wang Xishu, Wang Yaming, Yue Haitao, Li Qiang, Yang Xinle, Guo Chenguang, and Li Changyou. Micro-arc oxidation of Al alloys: Mechanism, microstructure, surface properties, and fatigue damage behavior [J]. Journal of Materials Research and Technology, 2023, 23: 4307-4333.

6.Dai Weibing, Zhang Ce, Zhao Lijuan, and Li Changyou. Effects of Cu content in Al-Cu alloys on microstructure, adhesive strength, and corrosion resistance of thick micro-arc oxidation coatings [J]. Materials Today Communications, 2022, 33: 104195.

7.Dai Weibing, Li Qiang, Guo Chenguang, Zhang Jianzhuo, Yang Xinle, Zhao Lijuan, and Li Changyou. Effect of micro-arc oxidation coating defects on fatigue property of Al alloy substrate [J]. Journal of Materials Research and Technology, 2022, 20: 2479-2488.

8.Dai Weibing, Yao Zhenghong, Zhang Hongzhuang, Li Changyou, Liu Yuzhuo, and Zhang Yimin. Effect of forging ratio on tensile properties and fatigue performance of EA4T steel [J]. Journal of Manufacturing Processes, 2022, 76: 291-303.

9.Dai Weibing, Zhang Ce, Wang Ziyi, Li Changyou, Yao Zhenghong, and Zhang Yimin. Constitutive relations of micro-arc oxidation coated aluminum alloy [J]. Surface & Coatings Technology, 2021, 420: 127328.

10.Dai Weibing, Hao Jin, Li Changyou, He David, Jia Dawei, Zhang Yimin, and Tan Zhi. Residual stress relaxation and duty cycle on high cycle fatigue life of micro-arc oxidation coated AA7075-T6 alloy [J]. International Journal of Fatigue, 2020, 130: 105283.

11.Li Changyou, Dai Weibing, Zhang Hongzhuang, Liu Yuzhuo, and Zhang Yimin. Effect of initial forging temperature on mechanical properties and fatigue behavior of EA4T steel [J]. Engineering Fracture Mechanics, 2020, 238: 105283.

12.Dai Weibing, Liu Zhenhua, Li Changyou, He David, Jia Dawei, Zhang Yimin, and Tan Zhi. Fatigue life of micro-arc oxidation coated AA2024-T3 and AA7075-T6 alloys [J]. International Journal of Fatigue, 2019, 124: 493-502.

13.Dai Weibing, Li Changyou, He David, Jia Dawei, Zhang Yimin, and Tan Zhi. Mechanism of residual stress and surface roughness of substrate on fatigue behavior of micro-arc oxidation coated AA7075-T6 alloy [J]. Surface & Coatings Technology, 2019, 380: 125014.

14.Dai Weibing, Li Changyou, He David, Jia Dawei, Zhang Yimin, and Tan Zhi. Influence of duty cycle on fatigue life of AA2024 with thin coating fabricated by micro-arc oxidation [J]. Surface & Coatings Technology, 2019, 360: 347-357.

15.Dai Weibing, Yuan Longxiang, Li Changyou, He David, Jia Dawei, and Zhang Yimin. The effect of surface roughness of the substrate on fatigue life of coated aluminum alloy by micro-arc oxidation [J]. Journal of Alloys and Compounds, 2018, 765: 1018-1025.

其他代表性论文

16.Dai Weibing, Zhang Xiulu, Li Changyou, and Yao Guo. Effect of thermal conductivity on micro-arc oxidation coatings [J]. Surface Engineering, 2022, 38(1): 44-53.

17.Dai Weibing, Li Changyou, Zhang Ce, Chen Liaoyuan, Li Zhenyuan, and Zhang Yimin. Effect of Cu on microarc oxidation coated Al-xCu alloys [J]. Surface Engineering, 2021, 37: 1098-1109.

18.戴卫兵，代俊林，张册，等. 铝合金微弧氧化膜层的多缺陷和疲劳行为研究进展[J].材料保护，2025，58(10)：79-88.

19.Zhou Quanlong, Dai Weibing, et al. Fatigue Life Prediction of 7075-T6 Clad Al Alloy with Gray Wolf Optimization-Limit Gradient Boosting [J]. Journal of Materials Engineering and Performance, 2025.

20.Li Zhaoji, Dai Weibing, et al. Fatigue Life Prediction of 2024-T3 Clad Al Alloy Based on an Improved SWT Equation and Machine Learning [J]. Materials, 2025, 18(2): 332.

21.Zhang Xiulu, Dai Weibing, et al. Numerical and experimental investigation of bearing capacity for compressed stiffened composite panel with different stringer section geometries [J]. Applied Composite Materials, 2022, 29(4): 1507-1535.

22.Yao Zhenghong, Dai Weibing, et al. Effect of quenching temperature on tensile strength and fatigue behavior of an EA4T steel [J]. Journal of Materials Engineering and Performance, 2021, 30(12): 9015-9028.

23.Li Changyou, Dai Weibing, et al. Effect of cooling condition on fatigue behavior of the forged EA4T steel [J]. steel research international, 2020, 91(9): 2000167.

24.Li Changyou, Dai Weibing, et al. Fatigue life estimation of medium-carbon steel with different surface roughness [J]. Applied Sciences, 2017, 7(4).

25.Yao Zhenghong, Hao Jin, Dai Weibing, et al. Effects of quenching medium and tempering temperature on microstructures, mechanical properties, and fatigue behavior of EA4T steel [J]. International Journal of Fatigue, 2022, 165: 107179.

26.Li Zhaoji, Yue Haitao, Dai Weibing, et al. Fatigue Life Prediction of 2024-T3 Al Alloy by Integrating Particle Swarm Optimization—Extreme Gradient Boosting and Physical Model [J]. Materials, 2025, 17(21): 5332.

27.Zhang Ce, Guo Chenguang, Dai Weibing, et al. Effects of coating porosity, thickness and residual stress on stress and fatigue behavior of micro-arc oxidation coated aero Al alloys. Journal of Materials Research and Technology, 2024, 31:4139-4152.

28.Tian Sen, Li Changyou, Dai Weibing, et al. Effect of the countersunk hole depth on tensile-tensile fatigue behavior of riveted specimens of AA2024-T3 alloy [J]. Engineering Failure Analysis, 2020, 115: 104639.

29.Huang Weibo, Zhang Yimin, Dai Weibing, Long Risheng. Mechanical properties of 304 austenite stainless steel manufactured by laser metal deposition [J]. Materials Science and Engineering: A, 2019, 758: 60-70.

30.Zhang Hongzhuang, Li Changyou, Dai Weibing, et al. Static compression testing CFRP single-lap composited joints using X-ray μCT [J]. Composite Structures, 2020, 234: 111667.

专利

1、黄文超，戴卫兵，赵宇宏，郭辰光，李兆基. 金属材料的疲劳寿命预测方法、装置、设备及存储介质. 辽宁省：ZL202411699821.9.

2、黄文超，戴卫兵，赵宇宏，郭辰光，李兆基. 金属材料疲劳寿命的预测方法及装置、介质、终端. 辽宁省：ZL202411699822.3.

3、周全龙，戴卫兵，李兆基，李金珂，颜克贵，刘兆宏，张梼. 一种微弧氧化试件加工用悬挂装置. 辽宁省：ZL202422802597.3.

4、黄文超，谢里阳，李常有，贾大炜，戴卫兵，张红状. 一种飞机复合材料层间拉伸应力设计许用值确定方法. 辽宁省：ZL202010680635.6.

5、张修路，李常有，黄文超，戴卫兵，苗会会，蔡兵. 一种复合材料加筋壁板结构长桁间距的确定方法. 辽宁省：CN114638135A，2025-05-16授权.

科研项目

1、2023年度中国博士后科学基金特别资助项目，国家级。

2、2023年度辽宁省教育厅基本科研项目（青年项目），省级。

3、2025年辽宁省自然基金联合计划项目，省级。