代表性论文专著
【2021年】
[1] S.Z. Niu, M. Lou*, Y.W. Ma, Y.B. Li*. Resistance rivet welding of Mg/steel dissimilar materials joining, Materials letters, 282, (2021) 128876. (SCI,IF=3.204)
[2] S.Z. Niu, M. Lou*, Y.W. Ma, Y.B. Li*. Study on the microstructure and mechanical performance for integrated resistance element welded aluminum alloy/press hardened steel joints, Materials science and engineering: A, 800, (2021) 14039. (SCI,IF=4.652).
【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. (SCI, IF=4.086)
[2] S.Z. Niu, Y.W. Ma, M. Lou*, Y.B. 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) 1-11. (SCI,IF=4.669).
[3] Xia Yu-Jun, Su Ze-Wei, Lou Ming, Li Yong-Bing, Carlson Blair. Online precision measurement of weld indentation in resistance spot welding using servo gun. IEEE Transactions on Instrumentation and Measurement, 2020, 69(7): 4465-4475. (SCI, IF=3.658)
[4] Ruiming Chen, Chaoqun Zhang, Ming Lou, Yongbing Li and Blair E. Carlson. Effect of Al-Si Coating on Weldability of Press-Hardened Steels[J]. Journal of Materials Engineering and Performance, 2020, 29(1):626-636. (SCI, IF=1.652)
[5] 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: p.116543. (SCI, IF=4.669)
[6] Zhang Qingxin, Huang Ming, Lv Tianle, Lou Ming, Li Yongbing. Effect of surface treatments and storage conditions on resistance spot weldability of aluminum alloy 5182. Journal of Manufacturing Processes, 2020, 58:30-40. (SCI, IF=4.086)
【2019年】
[1] Ming Lou, Yunwu Ma, Yongbing Li. Study on Formation and Performance of Electric-Aided Self-Piercing Riveted Aluminum Alloy and Dual-Phase Steels with Different Strength Grades, ASME 14th International Manufacturing Science & Engineering Conference, 2019, MSEC2019-2984.
[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] 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.
[4] 何冠中, 楼铭*, 马运五, 李永兵. 铝钢电阻单元焊接头力学性能模拟[J]. bat365在线中国官网登录入口学报,2019,53(5), 616-623.
【2018年】
[1] 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.
[2] Yunwu Ma, Ming Lou, Yongbing Li, Zhongqin Lin. Modeling and experimental validation of friction self-piercing riveted aluminum alloy to magnesium alloy. Welding in the World, 2018, 62(6): 1195-1206.
[3] 何冠中, 楼铭, 马运五, 李永兵. 铝钢电阻单元焊冲裁过程建模, 中国机械工程, 2018, 29(7): 1-7.
【2017年】
[1] 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
[2] 马运五,楼铭,李永兵*,铝合金高强钢自冲铆接工艺仿真研究,汽车工艺与材料, 2017, 8, 11-15.
【2016年】
[1] 李永兵, 马运五, 楼铭, 雷海洋, 林忠钦, 轻量化多材料汽车车身连接技术进展, 机械工程学报, 2016, 52(24), 1-23.
[2] 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.
【2015年度】
[1] 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.
[2] 周江奇,潘海涛,楼铭,杨舟,李永兵*,结构胶对铝钢异种金属自冲铆接工艺影响研究,汽车工程学报,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.
[2] 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.
【2013年度】
[1] 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.
[2] Bin Wang, Ming Lou, Qi Shen, Yongbing Li, Hongyan Zhang, Shunting Effect in Resistance Welding Steels–Part 1: Experimental Study, Welding Journal, 2013, 92 (6), 178s-185s.
[3] Yongbing Li, Bin Wang, Qi Shen, Ming Lou, Hongyan Zhang. Shunting Effect in Resistance Welding Steels–Part 2: Theoretical Analysis, Welding Journal, 2013, 92 (8) 231s-238s.
【2012年度】
[1] 李永兵, 李亚庭, 楼铭, 林忠钦,轿车车身轻量化及其对连接技术的挑战,机械工程学报, 2012, 48(18), pp 44-54.
【2011年度】
[1] Ming Lou, Yongbing Li, Zhongqin Lin, Guanlong Chen. Effects of Direct Current on Formability of Self-Piercing Riveted Joints of Dissimilar Sheet Metals, Steel Research International, 2011, 679-684.
[2] 金鑫,李永兵*,楼铭,王远,基于正交试验的铝合金-高强钢异种金属自冲铆接工艺优化,汽车工程学报,2011, 1(3) : 185-191.
[3] 黄舒彦,李永兵*,来新民,楼铭,基于力与位移信号的自冲铆接质量在线监测,机械设计与研究, 2011, 27(3): 86-90.
【2009年度】
[1] 楼铭, 李永兵(通讯作者), 黄舒彦, 陈关龙, 模钉体积比对异种金属自冲铆接接头形成性能影响分析, 中国机械工程, 2009, 20(15), pp. 1873-1876.
软件版权登记及专利
[1] 发明专利:轻合金与钢的异种金属材料电阻铆焊系统及其焊接方法, 中国, 授权号:CN109794670B
[2] 发明专利:机械-固相复合连接装置及其连接方法, 中国, 授权号:ZL 201310151494.9
[3] 发明专利:无铆钉电阻铆焊连接装置及方法, 中国, 授权号:ZL 201110367373.9
[4] 发明专利:直流电阻点焊多模式反馈控制方法, 中国, 授权公告号:CN107671406B
[5] 发明专利:面向超高强度钢与轻金属的自冲铆接装置及方法, 中国, 授权公告号:CN104384422B
[6] 发明专利:单边自冲摩擦螺柱铆焊装置及其连接方法, 中国, 授权号:ZL 201010194672.2
[7] 发明专利:电致塑性无铆钉铆接装置, 中国, 授权号:ZL 201010272239.6
[8] 发明专利:电致塑性自冲铆接装置, 中国, 授权号:ZL 201010275451.8
[9] 发明专利:位置可调的电阻点焊磁控装置, 中国, 授权号:ZL 201510583440.9
[10] 发明专利:用于自冲摩擦铆焊的铆钉及其自冲摩擦铆焊连接系统, 中国, 授权公告号:CN106112543B
[11] 发明专利:环形电致塑性无铆钉铆接装置, 中国, 授权号:ZL 201010288778.9
[12] 发明专利:环形电致塑性自冲铆接系统, 中国, 授权号:ZL 201010288976.5
[13] 发明专利:单边手持式电极修磨器, 中国, 授权号:ZL 201510646655.0
[14] 发明专利:基于电极间位移信号的焊点表面压痕深度的在线测量方法, 中国, 授权号:CN109931879B
[15] 发明专利:径向充磁单侧磁控电阻点焊装置, 中国, 授权号:ZL201810553987.8
[16] 发明专利:自冲摩擦铆焊质量在线检测及铆焊工艺控制方法和系统, 中国, 授权号:ZL201810148626.5
[17] 发明专利:Rivet for friction self-piercing riveting and friction self-piercing riveting connection system thereof, 美国, 授权号:US10695821B2
[18] 发明专利:便携式焊枪电极帽印痕检测装置, 中国, 公开号:CN107941132A
[19] 发明专利:一种超声辅助的自冲铆接方法, 中国, 公开号:CN104439684A
[20] 发明专利:电阻点焊焊核偏移控制装置及方法, 中国, 公开号:CN105081545A
[21] 发明专利:异种金属电阻铆焊装置, 中国, 公开号:CN101890564A
[22] 发明专利:自冲摩擦铆焊连接装置, 中国, 公开号:CN101817142A
[23] 发明专利:基于飞溅统计反馈的电阻点焊短时调幅控制方法, 中国, 申请号:CN202010841509.4