姓名：戴卫兵，副教授，硕士生导师

河南商丘人，1989年10月生，2016年9月-2022年1月在东北大学机械工程与自动化学院硕博连读，师从教育部新世纪优秀人才李常有教授、国家千人计划何巍华教授，2022年博士毕业后，以第五层次人才引入华人策略celue；主要从事微弧氧化涂层铝合金和高铁主轴钢的微观结构和疲劳性能以及疲劳寿命建模等研究工作，共发表SCI论文34篇，EI论文3篇，发明专利3项；以第一作者或通讯作者在International Journal of Fatigue (中科院1区)、Surface & Coatings Technology (中科院1区)、Journal of Materials Research and Technology (中科院1区)、Journal of Alloys and Compounds (中科院2区)、Journal of Manufacturing processes (中科院2区)、Materials Today Communications (中科院3区), Surface Engineering (中科院3区) 国际知名期刊上发表SCI论文13篇，导师第一作者本人第二作者发表SCI论文3篇；主持国家级基金项目1项、省级项目1项、校级项目2项，参与国家自然科学基金面上项目3项、国家联合基金项目1项。

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

代表性学术论文：

1. 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. Journal of Materials Research and Technology, 2023, 25:4554-4581.

2. 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. Journal of Materials Research and Technology, 2023, 23: 4307-4333.

3. 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. Journal of Materials Research and Technology, 2022, 20: 2479-2488.

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

5. 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. Materials Today Communications, 2022, 33: 104195.

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

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

8. 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. International Journal of Fatigue, 2020, 130: 105283.

9. 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. Surface & Coatings Technology, 2019, 380: 125014.

10. 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. International Journal of Fatigue, 2019, 124: 493-502.

11. 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. Surface & Coatings Technology, 2019, 360: 347-357.

12. 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. Journal of Alloys and Compounds, 2018, 765: 1018-1025.

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

其它论文：

1. Li Changyou (导师), Dai Weibing, Zhang Hongzhuang, Liu Yuzhuo, and Zhang Yimin. Effect of initial forging temperature on mechanical properties and fatigue behavior of EA4T steel. Engineering Fracture Mechanics, 2020, 238: 105283.

2. Li Changyou (导师), Dai Weibing, Liu Yuzhuo, Xu Wenze, Zhang Yimin, and Tan Zhi. Effect of cooling condition on fatigue behavior of the forged EA4T steel. steel research international, 2020, 91(9): 2000167.

3. Li Changyou (导师), Dai Weibing, Duan Fei, Zhang Yimin, and He David. Fatigue life estimation of medium-carbon steel with different surface roughness. Applied Sciences, 2017, 7(4).

4. Zhang Xiulu, Dai Weibing, Cai Bing, Li Changyou, Huang Wenchao, and Fang Caiwen. Numerical and experimental investigation of bearing capacity for compressed stiffened composite panel with different stringer section geometries. Applied Composite Materials, 2022, 29(4): 1507-1535.

5. Yao Zhenghong, Dai Weibing, Cai Bing, Li Changyou, Zhang Hongzhuang, and Zhang Yimin. Effect of quenching temperature on tensile strength and fatigue behavior of an EA4T steel. Journal of Materials Engineering and Performance, 2021, 30(12): 9015-9028.

6. Yao Zhenghong, Hao Jin, Dai Weibing, Li Changyou. Zhang Hongzhuang, and Zhang Yimin. Effects of quenching medium and tempering temperature on microstructures, mechanical properties, and fatigue behavior of EA4T steel. International Journal of Fatigue, 2022, 165: 107179.

7. Tian Sen, Li Changyou, Dai Weibing, Jia Dawei, Zhang Hongzhuang, Xu Mengtao, Yuan Yumeng, Liu Yuzhuo, and Zhang Yimin. Effect of the countersunk hole depth on tensile-tensile fatigue behavior of riveted specimens of AA2024-T3 alloy. Engineering Failure Analysis, 2020, 115: 104639.

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

9. Zhang Hongzhuang, Li Changyou, Xu Mengtao, Dai Weibing, Kumar Punit, Liu Zhendong, Li Zhenyuan, and Zhang Yimin. The fatigue performance evaluation of additively manufactured 304L austenitic stainless steels. Materials Science and Engineering: A, 2021, 802: 140640.

10. Zhang Hongzhuang, Li Changyou, Dai Weibing, Liu Yuzhuo, Tian Sen, Huang Wenchao, Jia Dawei, He David, and Zhang Yimin. Static compression testing CFRP single-lap composited joints using X-ray μCT. Composite Structures, 2020, 234: 111667.

11. Zhang Hongzhuang, Xu Mengtao, Kumar P, Li Changyou, Dai Weibing, Liu Zhendong, Li Zhenyuan, and Zhang Yimin. Enhancement of fatigue resistance of additively manufactured 304L SS by unique heterogeneous microstructure. Virtual and Physical Prototyping. 2021, 16(2): 125-145.

12. Jiang Shijie, Dong Tiankuo, Zhan Yang, Dai Weibing, and Zhan Ming. Experimental study on improving the mechanical properties of material extrusion rapid prototyping polylactic acid parts by applied vibration. Applied Sciences, 2021, 11(4): 1820.

13. Li Zhenyuan, Zhang Yimin, Li Changyou, Xu Mengtao, Dai Weibing, and Liu Zhendong. Modeling and nonlinear dynamic analysis of bolt joints considering fractal surfaces. Nonlinear Dynamics, 2022, 108(2): 1071-1099.

14. Xi Fangquan, Huang Yong, Zhao Yahui, Liu Yang, Dai Weibing, and Tian Yanzhong. Effects of Substrate Roughness on Microstructure and Fatigue Behavior of Plasma Electrolytic Oxidation-Coated Ti-6Al-4V Alloy. Materials, 2022, 15(12): 4256.

15. Jiang Shijie, Zhan Ming, Sun Mingyu, Dai Weibing, and Zhao Chunyu. Experimental and Theoretical Analysis on the Dynamic Characteristics of Fused Filament Fabrication Plates. Shock and Vibration, 2019, 2019: 1219435.

16. Yue Haitao, Lv Ning, Guo Chenguang, Zhai Jianhua, Dai Weibing, Zhang Jianzhuo, and Zhao Guochao. Multi-Objective Process Optimization of Laser Cladding Co-Based Alloy by Process Window and Grey Relational Analysis. Coatings, 2023, 13(6): 1090.

17. Yu Hui, Guo Chenguang, Yue Haitao, Li Qiang, Dai Weibing, and Wang Hui . Research on the influence of an adhesive layer on the monitoring signal of piezoelectric sensors. Smart Materials and Structures, 2023, 32(11): 115019.

18. Lv Ning, Yue Haitao, Guo Chenguang, Zhai Jianhua, Dai Weibing, Zhang Jianzhuo, and Zhao Guochao. Forming characteristics analysis of variable-process alternated overlapping strategy based on contour description for laser melting deposition. Journal of Materials Research and Technology, 2023, 27: 5424-5435.

19. Yue Haitao, Lv Ning, Guo Chenguang, Lijuan Zhao, Jiang Yihan, Dai Weibing, Li Qiang, and Zhang Jianzhuo. Effects of energy density on the mechanical properties, residual stress, and fatigue damage of Fe-Cr alloy fabricated by laser-directed energy deposition. The International Journal of Advanced Manufacturing Technology, 2023, 127: 3965-3977.

20. Zhang Ce, Li Changyou, Xu Mengtao, Yao Guo, Liu Zhendong, and Dai Weibing. Cutting force and nonlinear chatter stability of ball-end milling cutter. The International Journal of Advanced Manufacturing Technology, 2022, 120(9-10): 5885-5908.

21. Huang Wenchao, Xie Liyang, Li Changyou, Jia Dawei, Mu Yingzi, Hou Chunming, and Dai Weibing. Ananalytical and experimental study of T-shaped composite stiffened panels: Effect of 90 plies in stringers on curing and buckling performance. Applied Composite Materials, 2020, 27: 597-618.

22. 姜世杰, 董天阔, 戴卫兵, 战明. 熔丝成型薄板拉伸性能的理论与实验研究. 东北大学学报 (自然科学版), 2022, 43(1): 65.

23. 姜世杰, 胡科, 董天阔, 战明，戴卫兵. 利用中低频振动改善熔丝制造产品表面加工质量研究. 机械工程学报, 2021, 57(21): 119-125.

24. 姜世杰, 董天阔, 陈丕峰, 孙明宇，戴卫兵. 利用振动改善 FFF 薄板抗拉性能的实验研究. 振动 测试与诊断, 2021, 41(1): 150-156.

专利

  1、黄文超，戴卫兵，谢里阳，李常有，张红状，苗会会. 复合材料工型长桁加筋壁板试验件及测试方法. 辽宁省.

  2、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：CN111695205A，2020-09-22.

  3、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，2022-06-17.

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，18万，主持。（在研）

  2、2023年度辽宁省教育厅基本科研项目（青年项目），省级，3万，主持。（在研）

  3、博士启动经费，校级，50万，主持。（在研）

  4、中央高校基本科研业务费，校级，3万，主持。（结题）

  5、横向课题-某钛合金复合板材力学性能测试、某复合材料结构件静强度测试，中国航空工业集团合作项目，主要负责。（结题）

  6、国家自然科学基金面上项目-参数时空骤变及热振动耦合五轴机床非线性动态可靠性设计研究，国家级，58万，主要参与。（结题）

  7、国家自然科学基金面上项目-基于多种传感技术集成的机械疲劳诊断与剩余寿命的方法研究，国家级，62万，主要参与。（结题）

  8、国家自然科学基金面上项目-五轴铣车机床进给系统动力学参数快变与渐变耦合的可靠性设计理论研究，国家级，64万，主要参与。（结题）

  9、国家自然基金联合基金项目-大型重载滚动轴承的可靠性和寿命预测的理论与方法研究，国家级，250万，主要参与。（结题）