2001-2005, Shanghai Jiao Tong University Automotive Engineering, PhD
1998-2001, Xi'an Jiao Tong University Materials Processing, Master
1994-1998, Xi'an Jiao Tong University Materials Processing, Bachelor

2015~present, Distinguished professor, Department of Mechanical Engineering
2015~present, Associate head, Department of Mechanical Engineering
2014~present, Professor, Mechanical Engineering
2009~2014, Associate Professor ,School of Mechanical Engineering,Shanghai Jiao Tong University
2005~2008, lecturer, school of Mechanical Engineering, Shanghai Jiaotong University

Aug. 2014-Nov. 2014, Visiting Scholar, Oak Ridge National Laboratory (ORNL)
Sept. 2006-Aug. 2007, Visiting Scholar, The University of Michigan at Ann Arbor

(1) Multi-physics Modelling and Simulation of Welding and Joining Process
(2) Magnetic Assisted Welding Technology
(3) Advanced Joining of Lightweight and Dissimilar Materials (including riveting, resistance spot welding, CMT welding and adhesive bonding etc.)
(4) Smart Monitoring and Control of Welding and Joining Processes

Government Sponsored
[1]National Natural Science Foundation of China for Young Scholars, “Improving Resistance Spot Weld Quality With An Externally Applied Magnetic Field", Jan. 2008-Dec. 2010.
[2]National Natural Science Foundation of China, “A Novel Joining Method for Low Ductility Materials by Combining Mechanical Joining Mechanism with Solid State Joining Mechanism”, Jan. 1, 2013-Dec. 31, 2016
[3]Program for New Century Excellent Talents in University by MOE of China, “Friction-SPRing Mechanism and Application of Difficult-to-deform Materials", Jan. 1, 2013-Dec. 31, 2015
[4]Natural Science Foundation by Science and Technology Commission of Shanghai Municipality, “Novel Joining Method and Mechanism For Automotive Lightweight Low Ductility Materials”, July 1, 2012-June 30, 2015
[5]State Key Laboratory of Mechanical System and Vibration of Ministry of Science and Technology (MOST) of The People’s Republic of China, “Dissimilar Materials Joining using Friction Self-Piercing riveting", Jan. 1, 2011-Dec. 31, 2012
[6]National Natural Science Foundation for Excellent Young Scholars, “Welding Structures, Processes and Equipment”, Jan. 1, 2014-Dec. 31, 2016.
[7]Key Project of State Key Laboratory of Mechanical System and Vibration of Ministry of Science and Technology (MOST) of The People’s Republic of China, “Arc Spot Welding Mechanism and Method of Lightweight Metallic Materials", Jan. 1, 2014-Dec. 31, 2015
[8]Shanghai Automotive Industry Science and Technology Development Foundation, “SAIC Own Brand passenger cars’ Lightweighting Technology Roadmap and Implementation Advices", Dec. 1, 2012-Jul. 31, 2014
[9]National Natural Science of China: Key Program, “Joint Formation and Performance of dispersed Micro-Projection Weld-bonding of Dissimilar Materials", Jan. 1, 2016-Dec. 31, 2019
[10]Key fund of national natural science foundation of China (joint fund of automobile industry), basic research on composite connection technology of high-strength steel/aluminum and all-aluminum body materials, 2018.01-2021.12
[11]Sub-project of national key research and development plan for new energy vehicles, multi-material connection modeling analysis, fatigue design and performance evaluation method (riveting), 2016.07-2020.12

International Co-Operation Projects
2022.01-2024.12, General Motors Holdings LLC, GAC3688, Smart Monitoring of RSW Process for Development of Deep Learning Model
2021.09-2022.09, General Motors Holdings LLC, GAC3482, Laser welding strength investigation
2019.04-2020.12, Novelis Aluminum Products Co., LTD，F(xiàn)undamental research of RSW of 5xxx and 6xxx Aluminium sheet with SJTU
2018.12-2021.10, General Motors Holdings LLC, GAC2912, Process Monitoring of RSW
2018.12-2021.10, General Motors Holdings LLC, GAC2913, Resistance Spot Welding of Dissimilar Alloys/Metals
2015.04-2020.12, General Motors Holdings LLC, GAC1060, Resistance Spot Welding Process Development of Aluminum alloys using MRD Electrodes
2015.04-2020.03, General Motors Holdings LLC, GAC1060, Resistance spot welding of Al-Si Coated PHS
2013.04-2018.03, General Motors Holdings LLC, GAC1060, Solder Reinforced Adhesive
2013.04-2018.03, General Motors Holdings LLC, GAC1060, Corrosion Behaviors of CMT Spot Welded Dissimilar Joints
2013.04-2015.03, General Motors Holdings LLC, GAC1060, Hot Riveting of Ultra-HSS to Aluminum
2010/04-2013/03, General Motors Holdings LLC，NV08-CN23-CRL-SJTU, Rivet welding of dissimilar materials
2010/04-2013/03, General Motors Holdings LLC, NV08-CN23-CRL-SJTU, Adhesive bonding of dissimilar materials
2010/04-2013/03, General Motors Holdings LLC, NV08-CN23-CRL-SJTU, CMT spot welding of dissimilar materials

【2021年】
[1]YunwuMa, SizheNiu, Huihong Liu, YongbingLi, Ninshu Ma, Microstructural evolution in friction self-piercing riveted aluminum alloy AA7075-T6 joints, Journal of Materials Science & Technology, 2021, 82: 80-95
[2]Lin Qi, Fangzhou Li, Qingxin Zhang, Ye Xu, Xiaohui Han and Yongbing Li, Magnetic assisted single-sided resistance spot welding using radial magnetic field, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2021, 143, 031004
[3]Yu-Jun Xia, Yan Shen, Lang Zhou, Yong-Bing Li, Expulsion Intensity Monitoring and Modeling in Resistance Spot Welding Based on Electrode Displacement Signals, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2021, 143, 031008
[4]Sizhe Niu; Yunwu Ma; Binxin Yang; He Shan; Yongbing Li, Resistance rivet welding of magnesium/steel dissimilar materials, Materials Letters, 2021, 282: 128876
[5]Shanqing Hu, Amberlee Haselhuhn, Yunwu Ma, Yongbing Li, Blair Carlson, Zhongqin Lin, Influencing mechanism of inherent aluminum oxide film on coach peel performance of baked Al-Steel RSW welds, Materials and Design, 2021, 197: 109250
[6]Sizhe Niu; Yunwu Ma; Ming Lou, yongbing Li, Study on the microstructure and mechanical performance for integrated resistance element welded aluminum alloy/press hardened steel joints, Materials Science & Engineering A, 2021, 800:140329
[7]Yu-Jun Xia, Lang Zhou, Yan Shen, Diana M. Wegner, Amberlee S. Haselhuhn, Yong-Bing Li, Blair E. Carlson, Physical Model-based Online Monitoring of Weld Penetration in Robotic Resistance Spot Welding Using Electrode Displacement Signals, Measurement, Measurement, 2021, 168: 108397

【2020年】
[1]Ming Lou, Wayne Cai, Jun Huang, Hui-Ping Wang, Yongbing Li, Blair E. Carlson, Michael G. Poss. Simulation of Laser Brazing of Sheet Panels and Parametric Studies of Thermally-Induced Distortion Reduction, Journal of Manufacturing Processes, 2020, 60:1-10
[2]Guotao Zhang, Yongbing Li; Zhongqin Lin, Evolution mechanism of weld morphology for metallic bump assisted resistance spot welding (MBaRSW) process, Journal of Manufacturing Processes, 2020, 59, 432-443
[3]Qingxin Zhang, Ming Huang, Tianle Lv, Ming Lou, YongbingLi, Effect of surface treatments and storage conditions on resistance spot weldability of aluminum alloy 5182, Journal of Manufacturing Processes, 2020, 58: 30-40
[4]Sizhe Niu, Yunwu Ma, Ming Lou, Chaoqun Zhang, Yongbing Li, Joint Formation Mechanism and Performance of Resistance Rivet Welding (RRW) for Aluminum Alloy and Press Hardened Steel, Journal of Materials Processing Technology, 286 (2020) 116830
[5]Yunwu Ma, Sizhe Niu, He Shan, Yongbing Li, Ninshu Ma, Impact of Stack Orientation on Self?Piercing Riveted and Friction Self?Piercing Riveted Aluminum Alloy and Magnesium Alloy Joints, Automotive Innovation, 2020, 3(3), 242-249
[6]Shanqing Hu, Yunwu Ma, Yongbing Li, Zhongqin Lin, Amberlee S. Haselhuhn and Blair E. Carlson, A comparative study on resistance spot weldability of AA5754 vs 6022 joined to hot-dipped galvanized low carbon steel using Multi-Ring Domed electrodes, Welding Journal, 2020, 99, 224s-238s
[7]Yu-Jun Xia, Ze-Wei Su, Ming Lou, Yong-Bing Li, and Blair Carlson, Online Precision Measurement of Weld Indentation in Resistance Spot Welding Using Servo Gun, IEEE Transactions on Instrumentation & Measurement, 2020, 69(7): 4465-4475
[8]Lin Deng, Yongbing Li, Wayne Cai, Blair Carlson and Amberlee Haselhuhn, Simulating thermoelectric effect and its impact on weld nugget asymmetric growth in aluminum resistance spot welding, ASME JMSE, 2020, 142: 091001
[9]Lin Qi, Fangzhou Li, Ruiming Chen, Qingxin Zhang, and Yongbing Li. Improve resistance spot weld quality of advanced high strength steels using bilateral external magnetic field, Journal of Manufacturing Processes, 2020, 50: 270-280
[10]Su, Ze-Wei; Xia, Yu-Jun; Shen, Yan; Li, Yong-Bing*, A novel real-time measurement method for dynamic resistance signal in medium frequency DC resistance spot welding, Measurement Science and Technology, 2020, 31: 055011-12
[11]Ruiming Chen, Chaoqun Zhang, Ming Lou, Yongbing Li*, and Blair E. Carlson. Effect of Al-Si Coating on Weldability of Press Hardened Steels. Journal of Material Engineering and Performance, 2020, 29(1): 626–636
[12]Xiaoguang Sun, Qingxin Zhang, Suhuan Wang, Xiaohui Han, Yongbing Li, and Stan A. David. Effect of Adhesive Sealant on Resistance Spot Welding of 301L Stainless Steel. Journal of Manufacturing Processes, 2020, 51: 62-72
[13]Ming Huang, Qingxin Zhang, Lin Qi, Lin Deng, and Yongbing Li. Effect of an External Magnetic Field on the Resistance Spot-Welded AA6061-T6 Sheets. Journal of Manufacturing Processes, 2020, 50: 456-466
[14]Hang Zhao, Guotao Zhang, Qingxin Zhang, Chaoqun Zhang, and Yongbing Li*. Joining mechanism and mechanical properties of metallic bump assisted weld-bonded (MBaWB) joints of AA6061-T6 and bare DP590. Journal of Manufacturing Processes, 2020, 50: 204-215
[15]Yunwu Ma, Bingxin Yang, Ming Lou, Yongbing Li, Ninshu Ma, Effect of mechanical and solid-state joining characteristics on tensile-shear performance of friction self-piercing riveted aluminum alloy AA7075-T6 joints, Journal of Materials Processing Technology, 2020, 278, 116543
[16]Peng Li, Su Chen, Honggang Dong*, Hua Ji, Yongbing Li, Xin Guo, Guoshun Yang, Xiaosheng Zhang, Xinliang Han. Interfacial microstructure and mechanical properties of dissimilar aluminum/steel joint fabricated via refilled friction stir spot welding, Journal of Manufacturing Processes, 2020, 49: 385-396.
[17]夏裕俊，李永兵*，樓銘，雷海洋，電阻點(diǎn)焊質(zhì)量監(jiān)控技術(shù)研究進(jìn)展與分析，中國機(jī)械工程，2020，31(1): 100-125
[18]李永兵，馬運(yùn)五，樓銘，張國濤，張慶鑫，祁麟，鄧琳，輕量化薄壁結(jié)構(gòu)點(diǎn)連接技術(shù)研究進(jìn)展，機(jī)械工程學(xué)報(bào)，2020，56(6)，125-146
[19]鄭立好，張超群，張慶鑫，張國濤，李永兵，鋁合金電阻點(diǎn)焊新型碲鉻銅電極的壽命延長機(jī)理研究，中國機(jī)械工程, 2020, 31(21), 2632-2637

【2019年】
[1]Daixun Jiang, Qingxin Zhang, MinZhao, Haibo Xia, Shentang Wang, YongbingLi, Effects of Welds Distribution and High-low Temperature Humidity Alternating Aging on Sealing Performance of Weld-Bonded Stainless Steel Structures, Journal of Manufacturing Processes, 2019, 48, 77-85
[2]RuiMing Chen, Ming Lou, YongBing Li, Blair E. Carlson, Improving Weld Properties of Al-Si Coated Press Hardened Steel Using Stepped Current Pulse Schedule, Journal of Manufacturing Processes, 2019, 48, 31-43
[3]Yu-Jun Xia, Ze-Wei Su, Yong-Bing Li, Lang Zhou, Yan Shen, Online quantitative evaluation of expulsion in resistance spot welding, Journal of Manufacturing Processes, 2019, 46, 34-43
[4]Lin Deng, Ming Lou, Yongbing Li, Blair Carlson, Thermally assisted self-piercing riveting of AA6061-T6 to ultra-high strength steel, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2019,141(10),101006
[5]Guotao Zhang, Hang Zhao, Xianghe Xu, Guohua Qiu, Yongbing Li, Zhongqin Lin, Metallic bump assisted resistance spot welding (MBaRSW) of AA6061-T6 and Bare DP590: Part I—printing of metallic bump, Journal of Manufacturing Processes, 2019, 44, 427-434
[6]Guotao Zhang, Hang Zhao, Xianghe Xu, Guohua Qiu, Yongbing Li, Zhongqin Lin, Metallic bump assisted resistance spot welding (MBaRSW) of AA6061-T6 and Bare DP590: Part II-joining mechanism and joint property, Journal of Manufacturing Processes, 2019, 44, 19-27
[7]Qingxin Zhang, Ryan C. Sekol, Chaoqun Zhang, Yongbing Li, Blair E. Carlson, Joining Lithium-Ion Battery Tabs Using Solder-Reinforced Adhesive, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2019, 141, 044502
[8]YunWu Ma, YongBing Li and ZhongQin Lin, Joint formation and mechanical performance of friction self-piercing riveted aluminum alloy AA7075-T6 joints, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2019, 141, 041005
[9]Xirui Xian, Yunwu Ma, He Shan, Sizhe Niu, Yongbing Li, Single-sided joining of aluminum alloys using friction self-piercing riveting (F-SPR) process, Journal of Manufacturing Processes, 2019, 38(2), 319-327
[10]Haiyang Lei, Yang Guo, Yongbing Li, Blair E. Carlson. Corrosion Behaviors of CMT Spot Joined AA6022-T4 to Galvanized DC03 [J]. Welding Journal, 2019, 98(1), 14s-27s
[11]Q.B. Feng, Y.B. Li, B.E. Carlson, X.M. Lai, Study of resistance spot weldability of a new stainless steel, Science and Technology of Welding and Joining, 2019, 24(2), 101-111
[12]何冠中, 樓銘*, 馬運(yùn)五, 李永兵. 鋁鋼電阻單元焊接頭力學(xué)性能模擬[J]. 上海交通大學(xué)學(xué)報(bào)，2019，53(5), 616-623
[13] 徐野，祁麟，韓曉輝，葉結(jié)和，李永兵*，不銹鋼單側(cè)磁控電阻點(diǎn)焊工藝研究，中國機(jī)械工程，2019，30（07），877-881

【2018年】
[1]YunWu Ma, YongBing Li, Blair E. Carlson and ZhongQin Lin, Effect of Friction Stir Blind Riveting Process Parameters on Joint Formation and Mechanical Performance in & of Aluminum Alloys, Transactions of the ASME, Journal of Manufacturing Science and Engineering（accepted）
[2]Lin Deng, YongBing Li, Blair E. Carlson, David R. Sigler, Effects of electrode surface topography on aluminum resistance spot welding, Welding Journal（accepted）
[3]Yunwu Ma, Ming Lou, Yongbing Li, Zhongqin Lin, Effect of Riveting Factors on Rivetability and Performance of Self-piercing Riveted Aluminum Alloy and Mild Steel, Journal of Materials Processing Technology, 2018, 251, 282-294.
[4]Taolue Wua, Qingxin Zhang, Chaoqun Zhang, YongBing Li*, Blair E. Carlson, Process Variables Influencing Solder Reinforced Adhesive (SRA) Performance, Journal of Manufacturing Processes, 2018, 30, 440-452

【2017年】
[1]Q. Chu & W. Y. Li & X. W. Yang & J. J. Shen & Y. B. Li & W. B. Wang, Study of process/structure/property relationships in probeless friction stir spot welded AA2198 Al-Li alloy, Welding in the World, 2017, 61(2), 291-298
[2]HaiYang Lei, YongBing Li?, Blair E. Carlson, Cold metal transfer spot welding of 1 mm thick AA6061-T6, Journal of Manufacturing Processes, 2017, 28, 209-219
[3]YunWu Ma, XiRui Xian, Ming Lou, YongBing Li* and ZhongQin Lin, Friction Self-Piercing Riveting (F-SPR) of Dissimilar Materials, Procedia Engineering, 2017, 207, 950-955
[4]馬運(yùn)五，樓銘，李永兵*，鋁合金高強(qiáng)鋼自沖鉚接工藝仿真研究，汽車工藝與材料, 2017, 8, 11-15

【2016年】
[1]李永兵, 馬運(yùn)五, 樓銘, 雷海洋, 林忠欽, 輕量化多材料汽車車身連接技術(shù)進(jìn)展, 機(jī)械工程學(xué)報(bào), 2016，52（24），1-23
[2]Xun Liu, Yong Chae Lim, Yongbing Li, Wei Tang, Yunwu Ma, Zhili Feng, Jun Ni, Effects of process parameters on friction self-piercing riveting of dissimilar materials, Journal of Materials Processing Technology, 2016,
[3]XiaoBo Zhu, Xin Yang, YongBing Li*, Blair E. Carlson, Reinforcing cross-tension strength of adhesively bonded joints using metallic solder balls, International Journal of Adhesion & Adhesives, 2016, 68, 263-272
[4]HaiYang Lei, YongBing Li*, Blair E. Carlson, ZhongQin Lin, Microstructure and Mechanical Performance of CMT Spot Joints of AA6061-T6 To Galvanized DP590 Using Edge Plug Welding Mode, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2016, 138 (4), 071009
[5]Xiaobo Zhu, Yongbing Li*, Jun Ni, Xinmin Lai, Curing-Induced Debonding and Its Influence on Strength of Adhesively Bonded Joints of Dissimilar Materials, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2016,138(3),061005
[6]Yunwu Ma, Yongbing Li*, Wei Hu, Ming Lou, Zhongqin Lin, Modeling of friction self-piercing riveting (F-SPR) of aluminum to magnesium, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2016,138(3),061007
[7]Y. B. Li*, D. L. Li, S. A. David, Y. C. Lim, and Z. Feng, Microstructures of Magnetically Assisted DP590 Resistance Spot Welds, Science and Technology of Welding and Joining, 2016, 21(7), 1-9
[8]Q. Chu, X.W. Yang, W.Y. Li*, Y.B. Li, Microstructure and mechanical behavior of pinless friction stir spot welded AA2198 joints, Science and Technology of Welding and Joining, 2016, 21(3), 164-170
[9]Y. B. Li*, D. L. Li, Z. Q. Lin, S. A. David, Z. Feng & W. Tang, Review: magnetically assisted resistance spot welding, Science and Technology of Welding and Joining, 2016, 21(1), 59-74

【2015年】
[1]HaiYang Lei, YongBing Li*, Blair E. Carlson, ZhongQin Lin, Cold metal transfer spot Joining of AA6061-T6 to galvanized DP590 Under different modes, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2015, 137, 051028
[2]Yunwu Ma, Ming Lou, Zhou Yang and Yongbing Li*, Effect of Rivet Hardness and Geometrical Features on Friction Self-Piercing Riveted Joint Quality, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2015, 137, 054501
[3]周江奇，潘海濤，樓銘，楊舟，李永兵*，結(jié)構(gòu)膠對鋁鋼異種金屬自沖鉚接工藝影響研究，汽車工程學(xué)報(bào),2015, 5(5), 313-320


【2014年度】
[1]Ming Lou, YongBing Li*, GuanLong Chen, Influence of Resistance Heating on Self-Piercing Riveted Dissimilar Joints of AA6061-T6 and Galvanized DP590, Journal of Materials Processing Technology, 2014, 214(10), 2119-2126
(1)Yongbing Li*, Dinglong Li, Zhou Yang, Ming Lou, Qi Shen and Zhongqin Lin, “Magnetically Assisted Resistance Spot Welding (MA-RSW) of Ultra-High Strength Steel”, Sheet Metal Welding Conference XVI: Recent Developments in Welding and Joining Technologies For Lightweight Structures, October 22-24, 2014, Schoolcraft College, Livonia, Michigan
(2)Y. B. Li, B. Wang and H. Zhang, “Shunting in Resistance Spot Welding Steels”, Sheet Metal Welding Conference XVI: Recent Developments in Welding and Joining Technologies For Lightweight Structures, October 22-24, 2014, Schoolcraft College, Livonia, Michigan

【2013年度】
[1]YongBing Li*, ZeYu Wei, ZhaoZhao Wang and YaTing Li, Friction self-piercing riveting (F-SPR) of aluminum alloy AA6061-T6 to magnesium alloy AZ31B, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2013, 135(6), 061007-1-7
[2]XiaoBo Zhu, YongBing Li*, GuanLong Chen and Pei-Chung Wang, Curing-Induced Distortion Mechanism in Adhesive Bonding of Aluminum AA6061-T6 and Steels, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2013, 135(5), 051007-1-11
[3]Yongbing Li*, Zeyu Wei, Yating Li, Q shen, Zhongqin Lin, Effects of cone angle of truncated electrode on heat and mass transfer in resistance spot welding, International Journal of Heat and Mass Transfer, 2013, 65(10), 400-408
[4]Y. B. LI*, Y. T. LI, Q. SHEN, AND Z. Q. LIN, Magnetically assisted resistance spot welding of dual phase steel, WELDING JOURNAL, 2013,92(4), 124s-132s
[5]B. WANG, M. LOU, Q. SHEN, Y.B. LI AND H. ZHANG*, Shunting Effect in Resistance Welding Steels – Part 1: Experimental Study, Welding Journal, 2013, 92(6), 178s-185s
[6]Y.B. LI, B. WANG, Q. SHEN, M. LOU AND H. ZHANG*, Shunting Effect in Resistance Welding Steels – Part 2: Theoretical Analysis, Welding Journal, 2013, 92(8), 231s-238s
[7]Ming Lou, YongBing Li*, YaTing Li, GuanLong Chen, Behavior and Quality Evaluation of Electroplastic Self-Piercing Riveting of Aluminum Alloy and Advanced High Strength Steel, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2013, 135(1), 011005-1-9
[8]王遠(yuǎn)，李永兵，金鑫，陳東平，陸百迅，鋁代鋼對三層板接頭力學(xué)性能影響規(guī)律研究，汽車工程學(xué)報(bào)，2013


【2012年度】
[1]李永兵, 李亞庭, 樓銘, 林忠欽 ，轎車車身輕量化及其對連接技術(shù)的挑戰(zhàn) ，機(jī)械工程學(xué)報(bào), 2012,48(18), pp 44-54

【2011年度】
[1]YB Li, ZQ Lin, Q Shen and XM Lai, Numerical Analysis of Transport Phenomena in Resistance Spot Welding Process, ASME Transactions, Journal of Manufacturing Science and Engineering, 2011, 133(3), 031019-1-8
[2]YB Li, Q Shen, GL Chen and SJ Hu, Quality Improvement in Resistance Spot Welding of Advanced High Strength Steel Using External Magnetic Field, Science and Technology of Welding and Joining, 2011,16(5), pp. 465-469
[3]Qi Shen, Yongbing LI*, ZhongQin Lin and GuanLong Chen, Impact of External Magnetic Field on Weld Quality of Resistance Spot Welding, ASME Transactions, Journal of Manufacturing Science and Engineering, 2011, 133(5), 051001-1-7
[4]Qi Shen, YongBing Li*, ZhongQin Lin and GuanLong Chen, Effect of External Constant Magnetic Field on Weld Nugget of Resistance Spot Welded Dual-phase Steel DP590, IEEE Transactions on Magnetics, 2011, 47(10), 4116 – 4119
[5]M. Lou, Y.B. Li*, Z.Q. Lin, G.L. Chen, Effects of Direct Current on Formability of Self-Piercing Riveted Joints of Dissimilar Sheet Metals, Steel Research International (in press)
[6]XF Wang, YB Li*, GX Meng, Monitoring of resistance spot weld quality using electrode vibration signals, Measurement Science and Technology, 2011, 22(4), 045705
[7]XF Wang, YB Li(通訊作者), RH Li, GX Meng, Experimental study on electrode displacement fluctuation characteristics during resistance spot welding, Science and Technology of Welding and Joining, 2011, 11(6), pp. 140-145
[8]沈琦, 李永兵(通訊作者), 李銳華, 陳關(guān)龍, 永磁體作用下電阻點(diǎn)焊熔核中的電磁場分布規(guī)律, 上海交通大學(xué)學(xué)報(bào), 2011, 45 (01), pp. 25-29
[9]沈琦, 李永兵(通訊作者), 陳關(guān)龍, 林忠欽, 永磁體磁場對雙相高強(qiáng)鋼電阻點(diǎn)焊質(zhì)量的影響, 焊接學(xué)報(bào), 2011, 32(4), pp. 21-24
[10]金鑫，李永兵*，樓銘，王遠(yuǎn)，基于正交試驗(yàn)的鋁合金-高強(qiáng)鋼異種金屬自沖鉚接工藝優(yōu)化，汽車工程學(xué)報(bào)，2011, 1(3) : 185-191
[11]黃舒彥，李永兵*，來新民，樓銘，基于力與位移信號(hào)的自沖鉚接質(zhì)量在線監(jiān)測，機(jī)械設(shè)計(jì)與研究, 2011, 27(3): 86-90

【2010年度】
[1]Yong Bing Li, Zhong Qin Lin, Xin Min Lai, Guan Long Chen and Ke Zhang, Induced electromagnetic stirring behaviors in a resistance spot weld nugget, Science China Technological Sciences (中國科學(xué) E輯), 2010, 53(5), pp. 1271-1277
[2]Yongbing Li, Xin Min Lai, and Guanlong Chen, The influence of interfacial thermal contact conductance on resistance spot weld nugget formation, Advanced Materials Research, 2010, 97-101, pp. 3239-3242
[3]LI Yongbing, SHEN Qi and CHEN Guanlong, Visualization of fluid flow and heat transfer in resistance spot weld nugget, Transaction of JWRI, 2010,39(2), 42-43

【2009年度】
[1]樓銘, 李永兵(通訊作者), 黃舒彥, 陳關(guān)龍, 模釘體積比對異種金屬自沖鉚接接頭形成性能影響分析, 中國機(jī)械工程, 2009, 20(15), pp. 1873-1876

【2008年度】
[1]Yong Bing Li, Zhong Qin Lin, S. Jack Hu, and Guan Long Chen, Magnetohydrodynamic behaviors in a resistance spot weld nugget under different welding currents, Science in China Series E: Technological Sciences (中國科學(xué) E輯), 2008, 51(9), pp. 1507-1515
[2]Y. B. Li, C. P. Liang, Y. S. Zhang and Z. Q. Lin, Application of electrode force change in single sided resistance spot welding using servo gun, Science and Technology of Welding and Joining, 2008, 13(7), pp. 671-678

【2007年度】
[1]Yong Bing Li, Zhong Qin Lin, S. Jack Hu, and Guan Long Chen, Numerical analysis of magnetic fluid dynamics behaviors during resistance spot welding, Journal of Applied Physics, 2007, 101(5), 053506
[2]Yang HongGang, Hu S Jack, Zhang YanSong, Li YongBing(通訊作者)and Lai XinMin, Experimental study of single sided sheet to tube resistance spot welding, Science and Technology of Welding and Joining, 2007, 12(6): 530-535

1.Course Name：Engineering Materials and Processing Technology
Teaching Target: Undergraduate students/Master students
Credit Hour：54
Credit：3

2. Course Name: Materials process technology
Teaching Target: Undergraduates
Credit Hour: 27
Credit: 1.5

[1] Zhongqin Lin, Guanlong Chen, Yongbing Li, Yansong Zhang and Jun Xu, “Vehicle Body Resistance Spot Weld Quality Real-Time Inspection and Alerting Method”, Chinese Patent ZL200510030454.4, 2009
[2] Yongbing Li, Zhongqin Lin, Ruihua Li, Xinmin Lai, and Guanlong Chen, “Magnetically Controlled Resistance Spot Welding System”, Chinese Patent ZL200910056333.5, 2011
[3] Yongbing Li, Zhongqin Lin, Qi Shen, Xinmin Lai and Guanlong Chen, “A Type of Magnetically Assisted Resistance Spot Welding Method”, Chinese Patent ZL201110209540.7, 2013
[4] Guoxiang Meng, Xianfeng Wang, Yongbing Li, Wenhua Xie and Zhengjin Feng, “Online Resistance Spot Weld Quality Using Electrode Displacement Fluctuation”, Chinese Patent ZL201010109212.5, 2012
[5] Xianfeng Wang, Guoxiang Meng, Zhengjin Feng, Yongbing Li and Wenhua Xie, “Monitoring Device of Resistance Spot Welding Electrode Displacement Fluctuation Amplitude”, Chinese Patent ZL201010171585.5, 2012
[6] Yongbing Li, Zhongqin Lin, Xinmin Lai and Guanlong Chen, “Online Inspection Apparatus and Method of Self-Piercing Riveting Process”, Chinese Patent ZL201010605611.0, 2012
[7] Yongbing Li, Zhongqin Lin, Ming Lou, Xinmin Lai, and Guanlong Chen and Pei-Chung Wang, “Electro-Plastic Clinching Apparatus”, Chinese Patent ZL201010272239.6, 2012
[8] Yongbing Li, Zhongqin Lin, Ming Lou, Xinmin Lai, and Guanlong Chen and Xin Jin, “Single Sided Friction Self-Piercing Riveting Apparatus and Method”, Chinese Patent ZL201010194672.2, 2012
[9] Yongbing Li, Zhongqin Lin, Xinmin Lai, Ming Lou and Guanlong Chen, “Ring-Shaped Electro-Plastic Self-Piercing Riveting System”, Chinese Patent ZL201010288976.5, 2012
[10] Yongbing Li, Zhongqin Lin, Xinmin Lai, Ming Lou and Guanlong Chen, “Ring-Shaped Electro-Plastic Clinching Apparatus”, Chinese Patent ZL201010288778.9, 2012
[11] Yongbing Li, Zhongqin Lin, Ming Lou, Xinmin Lai, and Guanlong Chen and Pei-Chung Wang, “Electro-Plastic Self-Piercing Riveting Apparatus”, Chinese Patent ZL201010275451.8, 2013
[12] Yongbing Li, Zhongqin Lin, Haiyang Lei, Pei-Chung Wang, Xinmin Lai, and Guanlong Chen, “CMT Spot Welding System of Light Metal and Galvanized Steel”, Chinese Patent ZL201010613175.1, 2013
[13] Yongbing Li, Zhongqin Lin, Pei-Chung Wang, Haiyang Lei, Xinmin Lai and Guanlong Chen, “Arc Spot Welding Method of Light Metal and Bare Steel Using Bulk Formed Solder”, Chinese Patent ZL201110058077.0, 2013
[14] Yongbing Li, Zhongqin Lin, Haiyang Lei, Pei-Chung Wang, Xinmin Lai and Guanlong Chen, “A Novel Type of Arc Spot Welding Method for Metallic Materials”, Chinese Patent ZL201110338674.9, 2014
[15] Yongbing Li, Zhongqin Lin, Xiaobo Zhu, Pei-Chung Wang, Xinmin Lai, and Guanlong Chen, “Apparatus and Method of Controlling Curing Distortion of Dissimilar Materials”, Chinese Patent 201110212555.9, 2013

2021-present, Associate Editor, Journal of Manufacturing Processes
2019-present, Member, ASME-MED Manufacturing Processes Technical Committee(MPTC)
2018-present, Lead organizer/chair, ASME Manufacturing Science and Engineering Conference, Symposium on Novel Joining Technologies for Dissimilar Materials
2018-present, Associate Director, Shanghai Key Laboratory of Digital Manufacture for Thin-walled Structures & Vehicle Body Design and Manufacturing Institute
2016-present, Member, Joint Academic Committee, SJTU-ParisTech Elite Institute of Technology
2015-present, Member, Academic Committee, SJTU School of Mechanical Engineering
2014-present, University Director, SJTU-Obara Joint Laboratory in Advanced Resistance Spot Welding Technologies
2012-present, Permanent member, State Key Laboratory of Mechanical System and Vibration
2008-present, University Executive Deputy Director, General Motors Collaborative Research Laboratory (GMCRL) in Advanced Manufacturing Processes

2021, AWS A. F. Davis Silver Medal Award (Machine Design)
2018, First Prize, Shanghai Science and Technology Progress Award
2018, ASME MSEC, Best Paper Award
2018, ASME Best Organizer of Symposium and Sessions Award (BOSS Award)
2013, Advanced Individual of Golden Bridge (Jinqiao) Award of 6th China Technology Market Association, authorized by the State Science and Technology Awards Office of The People's Republic of China
2012, Outstanding Contribution Honor, “China Automotive Industry Process and Equipment Development & Research”, China Association of Automobile Manufacturers (CAAM)
2006, 2nd Award for Advancement of Science and Technology, “Data-driven manufacturing quality control of multi-species mass customization products ”, Ministry of Education (MOE) of The People's Republic of China