主持和参加项目

[1] 国家自然科学基金联合基金项目：高速列车车轮轮辋裂纹萌生与扩展机制研究；

[2] 国家自然科学基金面上项目：高速动车组合金车轴钢微粒子喷丸强化机理及超高周疲劳性能研究;

[3] 国家自然科学青年基金：机械结构用高强度等温淬火球墨铸铁超高周疲劳行为及破坏机理研究;

[4]牵引动力国家重点实验室自主课题：重载齿轮胶合性能影响因素和强度提高方法研究；

[5]牵引动力国家重点实验室自主课题：铁路车轮用等温淬火球墨铸铁（ADI）综合性能研究与优化；

[6]中车大同公司：HXD2B、HXD2C机车含裂纹牵引座安全性分析；

[7]中车戚墅堰公司：CRH轮装制动盘残余应力分析；

[8]中车唐山公司：时速400公里动车组模态规律研究；

[9]中车四方公司：柴油机连接箱用螺栓选型及紧固扭矩分析；

[10] 国家自然科学基金-高铁联合基金项目：高速接触网关键零部件疲劳失效机理及寿命预测；

[11]中车大连公司：增材抱轴箱体轴承孔残余应力分析。

共发表SCI/EI检索论文70余篇，部分发表论文如下：

[1] Jiwang Zhang*, Hang Li, Shoudong Zhu, Dongdong Ji, Kaixin Su, Residual stress relaxation behaviors and fatigue strength of micro-shot peened EA4T axle steel under constant and variable loading, Journal of Materials Engineering and Performance, 2024, 33:3770-3780.

[2]  Jiwang Zhang*, Xing Li, Bing Yang, Bing Wu, Shoudong Zhu. Fatigue properties and fatigue strength evaluation of railway axle steel: Effect of micro-shot peening and artificial defect, International Journal of Fatigue, 2020，132: 105379; 0142-1123.

[3]  Dongdong Ji, Jiwang Zhang*, Yanbin Zhang, Hang Li, Kaixin Su, Effect of compressive residual stress and press fitting on residual life assessment of deep-rolled EA4T steel railway axles, Engineering Failure Analysis, 2023, 153, 107544.

[4]   Liukui Hu, Jiwang Zhang*, Hang Li, Kaixin Su, Dongdong Ji, Thermal Stress Field and Microstructure Evolution of Ti-6Al-4V Fabricated by Laser Engineered Net Shaping, 2023, DOI10.1007/s12540-023-01504-9.

[5]  Hang Li, Jiwang Zhang*, Ni Ao, Junsheng Xu, Dongdong Ji. Influence of residual stress and its relaxation on the corrosion bending fatigue resistance of EA4T axle steel treated by ultrasonic surface rolling, International Journal of Fatigue, 2023, 170: 107561.

[6]  Hang Li, Jiwang Zhang*, Shengchuan Wu, Ni Ao, Kaixin Su, Honglan Xie. Micro-defect characterization and growth mechanism of plasma electrolytic oxidation coating on 6082-T6 alloy, Materials Characterization, 2023, 199: 112777.

[7]  Hang Li, Jiwang Zhang*, Liukui Hu, Kaixin Su. Notch fatigue life prediction of micro-shot peened 25CrMo4 alloy steel: A comparison between fracture mechanics and machine learning methods, Engineering Fracture Mechanics, 2023, 277: 108992.

[8] Kaixin Su, Jiwang Zhang*, Hang Li, Dongdong Ji, Liukui Hu. Anti-fatigue strengthening mechanism of conventional shot peening and micro-shot peening on bare and micro-arc oxidation coated 6082-T6 aluminum alloy, Materials Letters, 2023, 331: 133442.

[9]  Kaixin Su, Jiwang Zhang*, Hang Li, Dongfang Zeng, Tao Yan. Effects of the substrate state beneath the coating-substrate interface on fatigue properties of micro-arc oxidation coated 6082-T6 aluminum alloy, Surface & Coatings Technology, 2023, 457: 129274.

[10]  纪东东, 张继旺*, 徐俊生, 李行, 苏凯新, 基于扩展有限元法的含损伤深滚压车轴剩余寿命预测, 中国科学. 技术科学, 53(3): 417-429.

[11]  Hang Li, Jiwang Zhang*, Shengchuan Wu, Zhengkai Wu, Honglan Xie, Yanan Fu, Mingze Wu. Effects of micro-shot peening on the defect tolerance of Al-Si-0.6Mg alloy containing artificial defect, Journal of Alloys and Compounds, 2022, 921: 166170.

[12]  Kaixin Su, Jiawei Zhang, Jiwang Zhang*, Tao Yan, Guiming Mei. Optimisation of current collection quality of high-speed pantograph-catenary system using the combination of artificial neural network and genetic algorithm, Vehicle System Dynamics, 2022, 61(1): 260-285.

[13]  Hang Li, Jiwang Zhang*, Shengchuan Wu, Haonan Zhang, Yanan Fu. Corrosion fatigue mechanism and life prediction of railway axle EA4T steel exposed to artificial rainwater. Engineering Failure Analysis, 2022, 138:106319.

[14]  Ji Dongdong, Zhang Jiwang*, Yi Kejian, Huang Yichang, Lu Qi, Zhang Haonan. Surface crack growth simulation and residual life assessment of high-speed train axles based on extended finite element method, Engineering Failure Analysis, 2022, 134, 106043.

[15]  苏凯新, 张继旺*,张艳斌,闫涛,李行,纪东东. 微弧氧化6082-T6铝合金的高周疲劳性能及残余应力松弛机理, 金属学报. 2022,58(03): 334-344.

[16]  Kaixin Su, Jiwang Zhang*, Hang Li, Mingze Wu, Shoudong Zhu, Kejian Yi, Jinxin Zhang, Analysis on the fatigue properties of shot-Peened Al-Si-Mg alloy and its fatigue life prediction, Journal of Materials Engineering and Performance, 2020, 29(8): 5114- 5125.

[17]  苏凯新,张继旺*,李行,张金鑫,朱守东,易科尖, 基于神经网络的喷丸25CrMo合金疲劳寿命及残余应力松弛行为预测研究, 稀有金属材料与工程, 2020, 49(8): 2697-2705.

[18]  Xing Li, Jiwang Zhang*, Bing Yang*, Jinxing Zhang, Mingze Wu, Liantao Lu. Effect of micro-shot peening, conventional shot peening and their combination on fatigue property of EA4T axle steel. Journal of Materials Processing Technology, 2020, 275: 116320.

[19]  Jiwang Zhang*, Xing Li, Bing Yang, Huaqian gWang, Jinxin Zhang.Effect of micro-shot peening on fatigue properties of precipitate strengthened Cu-Ni-Si alloy in air and in salt atmosphere, Surface & Coatings Technology, 2019, 359: 16-23.

[20]  Wu Mingze, Zhang Jiwang*, Zhang Yanbin, Wang Huaqiang. Effects of Mg content on the fatigue strength and fracture behavior of Al-Si-Mg casting alloys, Journal of Materials Engineering and Performance, 2018, 27(11):5992-6003.

[21]  Qingpeng Song, Jiwang Zhang*, Ning Zhang, Wei Li, Liantao Lu. High cycle fatigue property and fracture behavior of high-strength austempered ductile iron, Proceedings of the institution of mechanical engineers part L- Journal of materials- Design and applications, 2017, 6; 231(4): 423-429.

[22]  Zhang Jiwang*, Li Wei, Song Qingpeng, Zhang Ning, Lu Liantao. Fatigue of Austempered Ductile Iron with Two Strength Grades in Very High Cycle Regime，Journal of Materials Engineering and Performance, 2016, 25:744-749.

[23]  Zhang Ning, Zhang Jiwang*, Lu Liantao, Zhang Mintang, Zeng Dongfang, Song Qingpeng. Wear and friction behavior of austempered ductile iron as railway wheel material, Materials & Design, 2016, 89:815-822.

[24]  Jiwang Zhang*, Wei Li, Huaqiang Wang, Qingpeng Song, Liantao Lu, Wenjian Wang, Zhongwei Liu. A comparison of the effects of traditional shot peening and micro-shot peening on the scuffing resistance of carburized and quenched gear steel, Wear, 2016, 368-369:253-257.

[25]  Jiwang Zhang*, Qingpeng Song, Ning Zhang, Liantao Lu, Mintang Zhang, Guodong Cui. Very high cycle fatigue property of high-strength austempered ductile iron at conventional and ultrasonic frequency loading. International Journal of Fatigue, 2015, 70: 235–240.

[26]  Jiwang Zhang*, Ning Zhang, Mintang Zhang, Dongfang Zeng, Qingpeng Song, Liantao Lu. Rolling-sliding wear of austempered ductile iron with different strength grades. Wear, 2014, 318: 62–67.

[27]  Jiwang Zhang*, Ning Zhang, Mintang Zhang, Liantao Lu, Dongfang Zeng, Qingpeng Song. Microstructure and mechanical properties of austempered ductile iron with different strength grades. Materials Letters, 2014, 119: 47–50.

[28]  J.W. Zhang, L.T. Lu*, Y.B. Zhang, K. Shiozawa, W.H. Zhang. Inclusion size evaluation and fatigue strength analysis of 35CrMo alloy railway axle steel. Materials Science and Engineering A. 2013, 528:7060-7067.

[29]  J.W. Zhang, L.T. Lu*, K. Shiozawa, W.N. Zhou, W.H. Zhang. Effect of nitrocarburizing and post-oxidation on fatigue behavior of 35CrMo alloy steel in very high cycle fatigue regime, International Journal of Fatigue, 2011, 33: 880-886. 

[30]  J.W. Zhang, L.T. Lu*, K. Shiozawa, X.L.Shen, H.F.Yi, W.H. Zhang. Analysis on fatigue property of microshot peened railway axle steel. Materials Science and Engineering A. 2011, 528：1615-1622.

[31]  J.W. Zhang, L.T. Lu*, K. Shiozawa, W.N. Zhou, W.H. Zhang. Effects of nitrocarburzing on fatigue property of medium carbon steel in very high cycle regime. Materials Science and Engineering A. 2011, 528:7060-7067.

[32]  Jiwang Zhang, Liantao Lu*, Guodong Cui, Xunliang Shen, Hongfei Yi, Weihua Zhang. Effect of gas oxynitrocarburizing on the properties of medium carbon railway axle steel, Surface Engineering, 2011, 27(7):498-503.

[33]  J.W. Zhang, L.T. Lu*, K. Shiozawa, G.D. Cui, W.H. Zhang. Fatigue properties of oxynitrocarburized medium carbon railway axle steel in very high cycle regime，International Journal of Fatigue, 2010, 32: 1805-1811.

[34]  Jiwang Zhang, Liantao Lu*, Guodong Cui, Xunliang Shen, Hongfei Yi, Weihua Zhang. Effect of process temperature on the microstructure and properties of gas oxynitrocarburized 35CrMo alloy steel, Materials & Design, 2010, 31(5): 2654-2658.

[35]  张继旺, 鲁连涛*, 张卫华. 微粒子喷丸中碳钢疲劳性能分析, 金属学报, 2009, 45(11): 1378-1383.

[36]  张继旺, 鲁连涛*, 沈训梁，衣鸿飞，张卫华. 基于塑性应变的变幅应力疲劳损伤评估方法, 金属学报, 2009, 45(12):1461-1465.

1. 材料和结构X射线残余应力分析与喷丸强化；
   

2. 材料和结构的疲劳与断裂；

3. 高速铁路接触网结构服役性能评估；

4. 高速列车结构强度及寿命预测；

5. 高速列车结构表面强化处理工艺研究；
   

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