2001―2005    上海交通大學，車輛工程，                 博士
1998―2001    西安交通大學，材料科學與工程，       碩士
1994―1998    西安交通大學，材料成型與控制工程，學士

2023.03-今：上海市復雜薄板結構數(shù)字化制造重點實驗室，主任
2023.02-今：上海交通大學，薄板結構制造研究所，所長
2021.07-今：上海交通大學，機械與動力工程學院，特聘教授
2014.12-今：上海交通大學，機械與動力工程學院，教授 

2014.08-11,   Oak Ridge National Laboratory (ORNL) , Visiting Scholar,

2012.06-今：上海交通大學，機械與動力工程學院，博士生導師
2008.12-2014.12：上海交通大學，機械與動力工程學院，副教授 

2008.04-2018.03, General Motors Collaborative Research Laboratory (GMCRL) in Advanced Manufacturing Processes，Executive Director

2006.09-2007.08, The University of Michigan at Ann Arbor, Visiting Postdoctor

2005.03-2008.12：上海交通大學，機械與動力工程學院，講師

高性能焊接/連接技術與智能裝備：
1、人工智能及大數(shù)據(jù)驅動的連接質量實時檢測與自適應控制
2、輕金屬/異質材料/異形結構鉚接及鉚焊復合連接技術
3、輕金屬/異質材料多能場輔助點焊技術
4、激光焊工藝及質量在線檢測

5、連接工藝多物理耦合仿真

歡迎“塑性成形、焊接與連接、結構輕量化設計、薄板產(chǎn)品裝配”等領域的優(yōu)秀學子和青年才俊加入“薄板結構制造研究所”。

研究所網(wǎng)址：bmtc.sjtu.edu.cn。

【行業(yè)學會/協(xié)會】

2025-今，中國焊接協(xié)會數(shù)字孿生與智能制造專委會，常務理事
2022-今，中國焊接協(xié)會焊接設備分會第二屆專委會，委員
2023-今，國家重點研發(fā)計劃“高性能制造技術與重大裝備”重點專項總體專家組，委員
2022-今，中國機械工程學會焊接分會第十一屆委員會，常務委員、副總干事
2018-22，中國機械工程學會焊接分會第十屆委員會，理事
2021-今，中國機械工程學會焊接分會青委會常委會，委員/副主任委員
2024-今，汽車輕量化技術創(chuàng)新戰(zhàn)略聯(lián)盟專家委員會多材料連接技術工作委員會，副主任委員
2023-今，汽車輕量化技術創(chuàng)新戰(zhàn)略聯(lián)盟專家委員會，委員
2022-今，中國汽車工程學會科技獎勵工作委員會，委員
2022-今，中國汽車工程學會汽車行業(yè)數(shù)字化與智能制造工作委員會，委員
2018-今，中國汽車工程學會汽車材料分會連接技術專委會，副主任委員
2022-今，中國有色金屬學會增材制造技術專業(yè)委員會，副主任委員
2021-今，中國有色金屬學會先進連接與加工分會，副主任委員
2024-今，ISO/TC 44/SC 10/WG 6，Committee member

2019-今，ASME-MED Manufacturing Processes Technical Committee(MPTC)，委員

【學術期刊/會議】

2025-今，Advanced Materials Joining，編委

2024-今，China Welding，編委

2023-今，Chinese Journal of Mechanical Engineering，編委
2022-今，Science and Technology of Welding and Joining，編委
2021-今，SME Journal of Manufacturing Processes，副主編
2023-今，《電焊機》，編委
2021-今，《汽車工藝與材料》，青年編委
2017-今，《中國機械工程》，編委
2018-今，ASME MSEC Symposium on Novel Joining Technologies for Dissimilar Materials，Co-organizer/Co-chairman

【國家、省部級項目】

2025-2027，吉林省重大科技專項，高性能鎂合金開發(fā)及制備技術研究，課題負責人 
2023-2026，國家重點研發(fā)計劃“智能機器人專項”，國產(chǎn)機器人汽車焊裝生產(chǎn)線關鍵技術與應用示范（揭榜掛帥），項目負責人
2022-2024，GF基礎科研計劃，空間大面積柔性太陽能電池翼裝配技術，合作單位負責人
2021-2025，國家自然科學基金杰出青年基金，焊接結構、工藝與裝備，主持
2021-2023，關鍵部件快速更換技術與成套裝備，上海市CYXT創(chuàng)新項目，主持
2018-2021，國家自然科學基金重點基金（汽車產(chǎn)業(yè)聯(lián)合基金），高強鋼/鋁及全鋁車身用材料復合連接技術基礎研究，課題負責人
2017-2018，HT一院高校聯(lián)合創(chuàng)新基金，差厚、大尺寸鋁合金板材電弧點焊工藝研發(fā)，主持
2016-2020，國家重點研發(fā)計劃新能源汽車專項子課題，多材料連接建模分析、疲勞設計與性能評價方法（鉚接），子課題負責人
2016-2019，國家自然科學基金重點基金（汽車產(chǎn)業(yè)聯(lián)合基金），異質材料分布式微點膠焊接頭形成機理及控形控性方法，主持
2014-2016，國家自然科學基金-優(yōu)秀青年科學基金項目，焊接結構、工藝與裝備，主持
2013-2016，國家自然科學基金面上項目，面向難變形材料的機械-固相復合連接方法研究、主持
2008-2010，國家自然科學基金青年基金項目，外加磁場控制高強鋼電阻點焊熔核形成的機理研究，主持
2013-2015，教育部新世紀優(yōu)秀人才支持計劃項目，航天用難變形材料自沖摩擦鉚焊機理及應用研究，主持
2012-2015，上海市自然科學基金項目，汽車用低延展率輕量化材料新型連接方法與機理研究、主持
2011-2012，科技部機械系統(tǒng)與振動國家重點實驗室開放研究課題（原創(chuàng)型），鋁鋼異種金屬自沖摩擦鉚焊連接方法，負責人

【國際合作項目】
2022.12-2024.12, General Motors, Resistance Spot Welding of AA7075
2022.01-2024.12, General Motors, Smart Monitoring of RSW Process for Development of Deep Learning Model，負責人
2021.09-2022.09, General Motors, Laser welding strength investigation，負責人
2019.04-2020.12, Novelis Aluminum Products Co., LTD，F(xiàn)undamental research of RSW of 5xxx and 6xxx Aluminium sheet with SJTU，負責人
2018.12-2021.10, General Motors, Process Monitoring of RSW，負責人
2018.12-2021.10, General Motors, Resistance Spot Welding of Dissimilar Alloys/Metals，負責人
2015.04-2020.12, General Motors, Resistance Spot Welding Process Development of Aluminum alloys using MRD Electrodes，負責人
2015.04-2020.03, General Motors, Resistance spot welding of Al-Si Coated PHS，負責人
2013.04-2018.03, General Motors, Solder Reinforced Adhesive，負責人
2013.04-2018.03, General Motors, Corrosion Behaviors of CMT Spot Welded Dissimilar Joints，負責人
2013.04-2015.03, General Motors, Hot Riveting of Ultra-HSS to Aluminum，負責人
2010/04-2013/03, General Motors, Rivet welding of dissimilar materials，負責人
2010/04-2013/03, General Motors, Adhesive bonding of dissimilar materials，負責人
2010/04-2013/03, General Motors, CMT spot welding of dissimilar materials，負責人
2010.12-2013.12, 科技部國際科技合作計劃項目，"面向中美清潔能源合作的電動汽車前沿技術研究”子課題“輕量化車身成形，連接與裝配工藝研究”

【企業(yè)合作項目】
2020.01-2021.06, 上汽通用五菱汽車股份有限公司，乘用車混批式混流智能制造項目子課題：點焊質量大數(shù)據(jù)分析系統(tǒng)，負責人
2019.10-2020.10, 中車青島四方機車車輛股份有限公司，差厚板難焊材料電阻點焊缺陷分析抑制及質量穩(wěn)定性控制研究，負責人
2018.12-2019.12, 中車青島四方機車車輛股份有限公司，不銹鋼電阻點焊質量提升磁控技術應用研究及性能評估分析，負責人
2018.06-2019.03, 中車青島四方機車車輛股份有限公司，芝加哥地鐵不銹鋼側墻變形控制及工藝優(yōu)化仿真技術研究，負責人
2017.11-2018.12，中車青島四方機車車輛股份有限公司，電阻點焊密封膠應用試驗研究-子項目2：點焊密封膠焊接工藝性及焊接性能研究，負責人
2017.11-2018.12，中車青島四方機車車輛股份有限公司，點焊密封膠使用性能評估和老化性能研究，負責人
2016.12-2017.05，上汽通用汽車有限公司，車身連接工藝大數(shù)據(jù)分析系統(tǒng)，負責人
2016.04-2017.04，泛亞汽車技術中心有限公司，鋁鋼異種材料電阻單元點焊（REW）仿真研究，負責人
2015.01-2017.03，上汽通用五菱汽車有限公司，百萬級平臺項目焊接質量智能管控，負責人
2013.08-2014.12，中車集團株洲電力機車有限公司，不銹鋼車體的電阻點焊質量磁控裝置與方法預研究，負責人
2013.08-2014.12，中車集團株洲電力機車有限公司，不銹鋼車體的電阻點焊質量監(jiān)測裝置與方法，負責人
2012.12-2014.06，上海汽車工業(yè)科技發(fā)展基金，上汽自主品牌乘用車輕量化技術路線和實施建議，負責人
2010.04-2011.07，泛亞汽車技術中心有限公司，鋁鋼異種金屬自沖鉚接工藝優(yōu)化，負責人
2002.12-2005.12，上海大眾汽車公司&上海市汽車工業(yè)科技發(fā)展基金聯(lián)合資助項目，基于熱膨脹電極位移的轎車車身電阻點焊質量實時監(jiān)控系統(tǒng)開發(fā)，技術負責人

【2022年】
[1] Yidi Wu, HuiHong Liu, Yongbing Li, Joining multiple-layer Al-Cu thin foils by a novel Resistance Rolling Welding method for battery application, Journal of Manufacturing Processes, 2022, 84: 718-726. https://doi.org/10.1016/j.jmapro.2022.10.046
[2] Tian-Le Lv; Miao-Miao Qi; Qing-Xin Zhang; Yu-Jun Xia, Yan Lin; Feng Wu; Yongbing Li, Effect of storage time on the surface status and resistance spot weldability of TiZr pretreated 5182 aluminum alloy, Journal of Manufacturing Processes, 81 (2022) 166–176. https://doi.org/10.1016/j.jmapro.2022.06.058
[3] Bingxin Yang, Yunwu Ma, He Shan, Sizhe Niu, Yongbing Li, Friction self-piercing riveting (F-SPR) of aluminum alloy to magnesium alloy using a flat die, Journal of Magnesium and Alloys, 2022, 10: 1207-1219. https://doi.org/10.1016/j.jma.2020.12.016
[4] Bingxin Yang, He Shan, Xiaohui Han, Sen Lin, Yunwu Ma, Ming Lou, Xiaojie Wang, Yongbing
Li, Single-sided friction riveting process of aluminum sheet to profile structure without prefabricated hole, Journal of Materials Processing Technology, 2022, 307: 117663. https://doi.org/10.1016/j.jmatprotec.2022.117663
[5] He Shan, Bingxin Yang, Yunwu Ma, Ming Lou, Qiaobo Feng, Yongbing Li, Zhongqin Lin, Friction stud riveting (FSR) of thick high-strength aluminum alloy structure, International Journal of Machine Tools and Manufacture, 2022, 177: 103889 (Featured article, Cover paper). https://doi.org/10.1016/j.ijmachtools.2022.103889
[6] Qian Zhi, Yongbing Li, Peng Shu, Xinrong Tan*, Caiwang Tan, Zhongxia Liu, Double pulse ultrasonic welding of carbon fiber reinforced polyamide 66 composite, polymers, 2022, 14, 714
[7] Shanqing Hu, Amberlee Haselhuhn, Yunwu Ma, Zhuoran Li, Lin Qi, Blair Carlson, Zhongqin Lin, Effect of external magnetic field on resistance spot welding of aluminum to steel, Science and Technology of Welding and Joining, 2022, 27(2): 84-91. https://doi.org/10.1080/13621718.2021.2013707
[8] Yunwu Ma, Bingxin Yang, Shanqing Hu, He Shan, Peihao Geng, Yongbing Li, Ninshu Ma, Combined strengthening mechanism of solid-state bonding and mechanical interlocking in friction self-piercing riveted AA7075-T6 aluminum alloy joints, Journal of Materials Science & Technology, 2022, 105: 109–121. https://doi.org/10.1016/j.jmst.2021.07.026
[9] Ruiming Chen, Ming Lou, Yongbing Li, Blair E. Carlson, Study on Critical Nugget Size Prediction Model for Al-Si Coated PHS Resistance Spot Welded Joints, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2022, 144, 021004. https://doi.org/10.1115/1.4051680
[10] Bingxin Yang, He Shan, Ying Liang, Yunwu Ma*, Sizhe Niu, Xiaobo Zhu, Yongbing Li, Effect of Adhesive Application on Friction Self-Piercing Riveting (F-SPR) Process of AA7075-T6 Aluminum Alloy, Journal of Materials Processing Technology, 2022, 299, 117336
[11] 楊炳鑫，馬運五，山河，楊天豪，孫靖，李永兵,?2A12-T4鋁合金自沖摩擦鉚焊接頭力學行為研究, 航空學報, 2022，43(2): 625111
[12] 李歡,呂天樂,夏裕俊,李永兵, 基于電極位移的點焊飛濺量化評價與自適應控制研究，中國機械工程, 2022,33(09): 1025-1033

【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，電阻點焊質量監(jiān)控技術研究進展與分析，中國機械工程，2020，31(1): 100-125
[18]李永兵，馬運五，樓銘，張國濤，張慶鑫，祁麟，鄧琳，輕量化薄壁結構點連接技術研究進展，機械工程學報，2020，56(6)，125-146
[19]鄭立好，張超群，張慶鑫，張國濤，李永兵，鋁合金電阻點焊新型碲鉻銅電極的壽命延長機理研究，中國機械工程, 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*, 馬運五, 李永兵. 鋁鋼電阻單元焊接頭力學性能模擬[J]. 上海交通大學學報，2019，53(5), 616-623
[13]徐野，祁麟，韓曉輝，葉結和，李永兵*，不銹鋼單側磁控電阻點焊工藝研究，中國機械工程，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]馬運五，樓銘，李永兵*，鋁合金高強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, 馬運五, 樓銘, 雷海洋, 林忠欽, 輕量化多材料汽車車身連接技術進展, 機械工程學報, 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*，結構膠對鋁鋼異種金屬自沖鉚接工藝影響研究，汽車工程學報,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，李永兵，金鑫，陳東平，陸百迅，鋁代鋼對三層板接頭力學性能影響規(guī)律研究，汽車工程學報，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的挑戰(zhàn) ，機械工程學報, 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, 陳關龍, 永磁體作用下電阻點焊熔核中的電磁場分布規(guī)律, 上海交通大學學報, 2011, 45 (01), pp. 25-29
[9]沈琦, 李永兵(通訊作者), 陳關龍, 林忠欽, 永磁體磁場對雙相高強鋼電阻點焊質量的影響, 焊接學報, 2011, 32(4), pp. 21-24
[10]金鑫，李永兵*，樓銘，王遠，基于正交試驗的鋁合金-高強鋼異種金屬自沖鉚接工藝優(yōu)化，汽車工程學報，2011, 1(3) : 185-191
[11]黃舒彥，李永兵*，來新民，樓銘，基于力與位移信號的自沖鉚接質量在線監(jiān)測，機械設計與研究, 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 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 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. 發(fā)明專利：用于轎車車身點焊的實時質量檢測與報警的方法，2009年授權, ZL200510030454.4
2. 發(fā)明專利：磁控電阻點焊系統(tǒng)，2011年授權, ZL200910056333.5
3. 發(fā)明專利：電致塑性自沖鉚接裝置，2012年授權, ZL201010275451.8
4. 發(fā)明專利：自沖鉚接質量在線檢測系統(tǒng)及其檢測方法，2012年授權, ZL201010605611.0
5. 發(fā)明專利：環(huán)形電致塑性自沖鉚接系統(tǒng)，2012年授權, ZL201010288976.5
6. 發(fā)明專利：電致塑性無鉚釘鉚接裝置，2012年授權, ZL201010272239.6
7. 發(fā)明專利：基于電極位移波動的電阻點焊質量實時檢測方法，2012年授權, ZL201010109212.5
8. 發(fā)明專利：電阻點焊中電極振幅的監(jiān)測裝置，2012年授權, ZL201010171585.5
9. 發(fā)明專利：單邊自沖摩擦螺柱鉚焊裝置及其連接方法，2012年授權, ZL201010194672.2
10.發(fā)明專利：環(huán)形電致塑性無鉚釘鉚接裝置，2012年授權, ZL201010288778.9