1981-1985 重庆大学机械二系铸造专业，学士
1985-1988 大连理工大学材料工程系铸造，硕士
1988-1992 西华大学铸造教研室，讲师
1992-1995 大连理工大学铸造专业，博士
1995-1997 上海大学钢铁冶金重点实验室，博士后，副研究员
1997- 今  上海交通大学轻合金精密成型国家工程研究中心，教授(2002)、博导(2003)
2000-2001 日本工业技术研究院名古屋工业技术研究所特别研究员
2002-2002 法国Grenoble国立理工学院，访问科学家

2013-2014 美国Wisconsin-Madison大学，访问教授

研究方向一 轻合金及其成形技术、材料制备与加工
研究方向二 金属复合材料

研究情况:

长期从事镁合金/铝合金及其成形技术、金属复合材料的研究，提出了镁合金稀土强韧化机制，发明了多种高强韧、高塑性、耐热等高性能铸造铝合金和镁合金、系列大塑性变形成形技术等。承担国家、省部级、国际和企业合作等项目50余项。发表论文380余篇，其中，SCI、EI分别收录260余篇，SCI论文他引5000余次，中国机械工程学会金奖论文1篇，金属学报优秀论文1篇，美国TMS学会最佳论文(应用类)1篇，出版学术专著3部，申请专利110余项，授权专利65项，获2003年中国优秀发明专利奖1项、2004年上海市优秀发明专利二等奖1项，获国家科技进步二等奖1项，省部级科技进步一等奖3项、二等奖3项。

“材料研究学报”、“材料导报”、Journal of Engineering等期刊编委

1.JIE WEI, QUDONG WANG*, DONGDI YIN,LI ZHANG, HAO ZHOU, BING YE, HAIYAN JIANG, and WENJIANG DING. Extra Strain Hardening in High Pressure Die Casting Mg-Al-RE Alloy. METALLURGICAL AND MATERIALS TRANSACTIONS A, 2020, 51：1487-1492

2.GUOPING LIU, QUDONG WANG*, LI ZHANG, BING YE, HAIYAN JIANG, and WENJIANG DING. Effects of melt-to-solid volume ratio and pouring temperature on microstructures and mechanical properties of Cu/Al bimetals in compound casting process, METALLURGICAL AND MATERIALS TRANSACTIONS A, 2019, 50A, (1):401-414

3.Hua?Ping Tang, Qu?Dong Wang*, Chuan Lei, Bing Ye, Kui Wang, Hai?Yan Jiang, Wen?Jiang Ding, Xiang-Feng Zhang, Zhen Lin, Ji-Bin Zhang. Effect of cooling rate on microstructure and mechanical properties of an Al-5.0Mg-3.0Zn-1.0Cu cast alloy. Journal of Alloys and Compounds, 2019, 801: 596-608

4. Li Zhang, Qudong Wang*, Guoping Liu, Wei Guo, Bing Ye, Wenzhen Li, Haiyan Jiang, Wenjiang Ding. Tribological Behavior of Carbon Nanotube-Reinforced AZ91D Composites Processed by Cyclic Extrusion and Compression. Tribology Letters, 2018, 66(2):71:1-11

5.Li Zhang, Qudong Wang*, Wenjun Liao, Wei Guo, Bing Ye, Wenzhen Li, Haiyan Jiang, Wenjiang Ding. Effects of cyclic extrusion and compression on the microstructure and mechanical properties of AZ91D magnesium composites reinforced by SiC nanoparticles. Materials Characterization, 2017, 126:17-27

6.Qudong Wang*, Yongliang Mu, Jinbao Lin, Hans J. Roven. Strengthening and toughening mechanisms of an ultrafine grained Mg-Gd-Y-Zr alloy processed by cyclic extrusion and compression. Materials Science & Engineering A, 2017, 699: 26-30

7.Teng Liu, Qudong Wang*, Yudong Sui, Qigui Wang, Wenjiang Ding. An investigation into interface formation and mechanical properties of aluminum-copper bimetal by squeeze casting. Materials and Design. 2016, 89: 1137-1146

8.HUAN WANG, CARL J. BOEHLERT, QUDONG WANG*, DONGDI YIN, WENJIANG DING. Analysis of Slip Activity and Deformation Modes in Tension and Tension-Creep Tests of Cast Mg-10Gd-3Y-0.5Zr (Wt Pct) at Elevated Temperatures Using In Situ SEM Experiments. Metallurgical and Materials Transactions A, 2016, 47:2421-2443

9.H. Wang, C.J. Boehlert, Q.D. Wang?, D.D. Yin, W.J. Ding. In-situ analysis of the tensile deformation modes and anisotropy of extruded Mg-10Gd-3Y-0.5Zr (wt.%) at elevated temperatures. International Journal of Plasticity, 2016, 84: 255-276

10. Yudong Sui, Qudong Wang?, Guangliang Wang, Teng Liu. Effects of Sr content on the microstructure and mechanical properties of cast Al–12Si–4Cu–2Ni–0.8Mg alloys. Journal of Alloys and Compounds, 2015, (622): 572–579

11.Hao Zhou, Guangming Cheng, Xiaolong Ma, Weizong Xu, Suveen Mathaudhu, Qudong Wang?, Yuntian Zhu?. Effect of Ag on interfacial segregation in Mg-Gd-Y-(Ag)-Zr alloy. Acta Materialia, 2015, 95:20-29

12.Z. X. Liang, B. Ye, L. Zhang, Q. G. Wang, W. Y. Yang, Q. D. Wang?. A new high-strength and corrosion-resistant Al-Si based casting alloy. Materials Letters, 2013, 97:104-107

13.Yongliang Mu, Qudong Wang?, Maoliang Hu, Vit Janik, Dongdi Yin. Elevated-temperature impact toughness of Mg-(Gd, Y)-Zr alloy. Scripta Materilia, 2013, 68(11): 885-888

14.W. W. Jian, G. M. Cheng, W. Z. Xu, C. C. Koch, Q. D. Wang?, Y. T. Zhu and S. N. Manthaudhu. Physics and model of strengthening by parallel stacking faults. Applied Physics Letters, 2013, 103: 133108-1-4

15.D.D. YIN, Q. D. Wang?, C.J. BOEHLERT, and V. JANIK. Creep and Fracture Behavior of Peak-Aged Mg-11Y-5Gd-2Zn-0.5Zr (wt pct). METALLURGICAL AND MATERIALS TRANSACTIONS A, 2012, 43(9): 3338-3350

16.Tao Peng, QudongWang*, JinbaoLin, ManpingLiu, HansJ.Roven. Microstructure and enhanced mechanical properties of an Mg–10Gd–2Y–0.5Zr alloy processed by cyclic extrusion and compression. Materials Science and Engineering A, 2011, 528:1143-1148

17.V. Janik, D.D. Yin, Q.D. Wang*, S.M. He, C.J. Chen, Z. Chen, C.J. Boehlert. The Elevated-Temperature Mechanical Behavior of peak-aged Mg-10Gd-3Y-0.4Zr Alloy. Materials Science and Engineering A, 2011, 528: 3105-3112

18.Qudong Wang, Yongjun Chen, Manping Liu, Jinbao Lin, Hans J. Roven. Microstructure evolution of AZ series magnesium alloys during cyclic extrusion compression. Materials Science and Engineering A, 2010, 527(9): 2265-2273

19.Y. J. Chen, Q. D. Wang, H. J. Roven, M. P. Liu, M. Karlsen, Y. D. Yu and J. Hjelen. Network-shaped fine-grained microstructure and high ductility of magnesium alloy fabricated by cyclic extrusion compression.Scripta Materialia, 2008, 58(4): 311-314

20.Qudong Wang, Yinhong Wei, Wenzhou Chen, Yanping Zhu, Chunjiang Ma, Wenjiang Ding. In situ surface composites of (Mg2Si+Si)/ZA27 fabricated by centrifugal casting.Materials Letters, 2003, 57:3851-3858

本科生新生研讨课“镁合金及其成形技术”、

硕士生“铸造合金及过程控制”、

博士生“结晶原理”