2010.09―2014.07: 哈尔滨工业大学，焊接技术与工程，学士
2014.09―2016.07: 哈尔滨工业大学，材料加工工程，硕士
2016.09―2021.09: bat365在线中国官网登录入口，机械工程，博士

2021.09-2024.04: bat365在线中国官网登录入口，bat365在线中国官网登录入口，博士后
2024.04-至今:     bat365在线中国官网登录入口，bat365在线中国官网登录入口，助理教授/博导

1.焊接过程实时感知与智能监控
2.机理-数据融合驱动建模与分析
3.高性能点连接工艺与智能装备

【国家、省部级项目】
2023.12-2026.12，国家重点研发计划课题，面向国产机器人的伺服点焊工艺适配，负责人
2023.01-2025.12，国家自然科学基金青年基金项目，机理与数据融合驱动的电阻点焊质量在线精密检测技术研究，负责人
2022.12-2024.12，中国科协青年人才托举工程项目，铝合金汽车车身点连接质量智能监控技术，负责人
2022.03-2023.09，中国博士后科学基金特别资助项目，载运工具点连接质量在线感知与仿真技术，负责人
2022.07-2024.06，广东省舰船先进焊接技术企业重点实验室开放课题，铝合金结构胶接点焊实时监控技术，负责人
2022.01-2023.12，新型钎焊材料与技术全国重点实验室开放课题，电阻熔钎点焊质量在线监控技术，负责人
2022.01-2024.12，GF基础科研计划，空间大面积柔性太阳能电池翼装配技术，主要完成人

【国际合作项目】
2022.12-2024.12，General Motors，Resistance Spot Welding of AA7075，共同负责人
2022.01-2024.12，General Motors，Smart Monitoring of RSW Process for Development of Deep Learning Model，共同负责人
2018.12-2021.10，General Motors，Process Monitoring of RSW，主要完成人

【企业合作项目】
2023.07-2024.06，上汽通用五菱汽车股份有限公司，车身产线点焊质量在线多维高精度评价管控系统，负责人
2022.07-2024.06，中国重汽集团济南动力有限公司，点焊质量在线管控系统研发及应用，负责人
2022.01-2022.12，北京卫星制造厂有限公司，舱体结构焊点质量在线监测与评估系统，主要完成人
2021.01-2022.06，首都航天机械有限公司，箭体贮箱电阻点焊无飞溅、脱焊工艺技术研究，参与人
2020.01-2021.06，上汽通用五菱汽车股份有限公司，乘用车混批式混流智能制造，主要完成人
2018.12-2019.12，中车青岛四方机车车辆股份有限公司，不锈钢电阻点焊质量提升磁控技术应用研究及性能评估分析，参与人
2016.12-2018.07，上汽通用汽车有限公司，车身连接工艺大数据分析系统，主要完成人
2015.01-2017.03，上汽通用五菱汽车有限公司，百万级平台项目焊接质量智能管控，参与人

【期刊论文】
[1] Yu-Jun Xia, ZhuoRan Li, WenJie Wang, TianHao Yang, YongBing Li*. Influence mechanism of initial gap disturbance on the resistance spot welding process, Automotive Innovation, 2024, 7: 360–372.
[2] ZhuoRan Li, DianPing Zhang, RuiMing Chen, SongLin Wang, Yu-Jun Xia*, Min Lou, YongBing Li*. Improving weldability of press hardened steel through combining stepped current pulse and magnetically assisted resistance spot welding process. Journal of Manufacturing Science and Engineering-Transactions of ASME, 2024, 146(2): 021007-11.
[3] Yu-Jun Xia, TianLe Lv, Hassan Ghassemi-Armaki, YongBing Li*, Blair E. Carlson. Quantitative interpretation of dynamic resistance signal in resistance spot welding. Welding Journal, 2023, 102(4): 69s-87s.
[4] Yu-Jun Xia, TianLe Lv, Hassan Ghassemi-Armaki, YongBing Li*, Blair E. Carlson. Collaborative simulation of nugget growth and process signals for resistance spot welding. Welding in the World, 2023, 67(1): 1377-1392.
[5] Matthew Russell, Joseph Kershaw, Yu-Jun Xia, Tian-Le Lv, YongBing Li, Hassan Ghassemi-Armaki, Blair E. Carlson, Peng Wang*. Comparison and explanation of data-driven modeling for weld quality prediction in resistance spot welding. Journal of Intelligent Manufacturing, 2023.
[6] TianLe Lv, YuZhong Rao, QingXin Zhang, Yu-Jun Xia*, Yan Lin, Feng Wu, YongBing Li*, DeJun Yan. Effect of storage time on the surface status and resistance spot weldability of TiZr pretreated 5182 aluminum alloy. Journal of Manufacturing Processes, 2022, 81(9): 166-176.
[7] Yan Shen, Yu-Jun Xia*, Huan Li, Lang Zhou, YongBing Li*, Hai-Tao Pan. A novel expulsion control strategy with abnormal condition adaptability for resistance spot welding. Journal of Manufacturing Science and Engineering-Transactions of ASME, 2021 143(11): 111009-12.
[8] Yu-Jun Xia, Yan Shen, Lang Zhou, YongBing Li*. Expulsion intensity monitoring and modeling in resistance spot welding based on electrode displacement signals. Journal of Manufacturing Science and Engineering-Transactions of ASME, 2021, 143(3): 031008-11.
[9] Yu-Jun Xia, Lang Zhou, Yan Shen, Diana Wegner, Amberlee Haselhuhn, YongBing Li*, Blair E. Carlson. Online measurement of weld penetration in robotic resistance spot welding using electrode displacement signals. Measurement, 2021, 168(1): 108397-11.
[10] Lang Zhou, Yu-Jun Xia, Yan Shen, YongBing Li*. Comparative study on resistance and displacement based adaptive output tracking control strategies for resistance spot welding, Journal of Manufacturing Processes, 2021, 63(3): 98-108.
[11] Yu-Jun Xia, ZeWei Su, Ming Lou, YongBing Li*, Blair E. Carlson. Online precision measurement of weld indentation in resistance spot welding using servo gun. IEEE Transactions on Instrumentation and Measurement, 2020, 69(7): 4465-4475.
[12] ZeWei Su, Yu-Jun Xia, Yan Shen, YongBing Li*. A novel real-time measurement method for dynamic resistance signal in medium frequency DC resistance spot welding. Measurement Science and Technology, 2020, 31(5): 055011-12.
[13] Yu-Jun Xia, ZeWei Su, YongBing Li*, Lang Zhou, Yan Shen. Online quantitative evaluation of expulsion in resistance spot welding. Journal of Manufacturing Processes, 2019, 46(10): 34-43.
[14] Yu-Jun Xia*, ZhongDian Zhang, ZhenXin Xia, ShiLiang Zhu. A precision analogue integrator system for heavy current measurement in MFDC resistance spot welding. Measurement Science and Technology, 2016, 27(2): 025104-11.
[15] 林忠钦, 马运五, 夏裕俊, 李永丰, 李淑慧, 李永兵. 载运工具高性能薄壁承载结构成形及连接工艺研究进展. 机械工程学报, 2023. 59(20): 1-13.
[16] 李欢, 吕天乐, 夏裕俊*, 李永兵. 基于动态电极位移的点焊飞溅自适应控制策略. 中国机械工程, 2022, 33(9): 1025-1033.
[17] 吕天乐, 齐苗苗, 闫德俊, 黎书华, 夏裕俊*, 李永兵. 波动工况下点焊质量在线预测及模型解释. 焊接学报, 2022, 43(11): 91-100.
[18] 夏裕俊, 李永兵*, 楼铭, 雷海洋. 电阻点焊质量监控技术研究进展与分析. 中国机械工程, 2020, 31(1): 100-125.
[19] 朱世良, 夏裕俊, 张忠典, 田修波*. DZ-47触头电阻焊. 焊接学报, 2014, 35(12): 67-71.

【会议论文】
[1] Yu-Jun Xia, TianLe Lv, Hassan Ghassemi-Armaki, YongBing Li*, Blair E. Carlson. Quantitative Interpretation of Electrode Displacement Signal in Resistance Spot Welding, Proceedings of IIW 76th International Conference on Welding and Joining, 2023: 766-772.
[2] TianLe Lv, Yun-Jun Xia*, YongBing Li, SongLin Wang. Quality prediction and model explanation of resistance spot welding process under varying fit-up conditions. Proceedings of the ASME 18th International Manufacturing Science and Engineering Conference , 2023, 105586: 1-8.
[3] ZhuoRan Li, Yu-Jun Xia*, Ming Lou, YongBing Li, RuiMin Chen, Lin Qi. Improve resistance spot weld quality of press hardened steel by using stepped current pulse and external magnetic field. Proceedings of the ASME 18th International Manufacturing Science and Engineering Conference, 2023, 105603: 1-8.
[4] Yu-Jun Xia, TianLe Lv, Hassan Ghassemi-Armaki, YongBing Li*, Blair E. Carlson. Collaborative Simulation of Nugget Growth and Process Signals for Resistance Spot Welding, Proceedings of IIW 75th International Conference on Welding and Joining, 2022: 283-286.
[5] Yu-Jun Xia, Yan Shen, Lang Zhou, YongBing Li*. Expulsion intensity monitoring and modeling in resistance spot welding based on electrode displacement signals. Proceedings of the ASME 15th International Manufacturing Science and Engineering Conference, 2020, 10086: 1-10.

1. 发明专利：真性プロセス信号に基づく抵抗スポット溶接におけるスパッタのオンライン検出方法およびシステム: 日本, 特许7286211号.
2. 发明专利：融合多传感时序信号机理模型的电阻点焊质量在线检测方法: 中国, ZL202210556598.7.
3. 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, ZL202010841509.4.
4. 发明专利：电阻点焊飞溅金属量的快速高精度评价方法: 中国, ZL201910247182.5.
5. 发明专利：基于本征过程信号的电阻点焊飞溅在线量化检测方法: 中国, ZL202010064515.3.
6. 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, ZL201910246939.9.
7. 发明专利：直流电阻点焊多模式反馈控制方法: 中国, ZL201711058440.2.
7. 发明专利：逆变直流点焊动态电阻实时测量装置及测量方法: 中国, ZL201510657815.1.
9. 发明专利：一种点焊焊钳动态电极力的测量装置及测量方法: 中国, ZL201510665822.6.
10 发明专利： 一种低泄漏误差的模拟积分器: 中国, ZL201510249415.7.
11. 发明专利：一种单电源供电的多类型模拟信号处理电路: 中国, ZL201410788941.6.
12. 软件著作：SMAJOT焊接生产线控制系统软件: 中国, 2020SR1092055.