基本信息

讲师、硕士生导师（学术+专业）

邮箱：shanhe@bjut.edu.cn 手机：17269556172

北京工业大学智能成型装备与系统研究所

汽车结构部件先进制造技术教育部工程研究中心

具身智能焊接机器人北京市重点实验室

工作经历

2023.10至今 北京工业大学 机械工程 讲师、师资博后

教育经历

2018.09-2023.09 上海交通大学 机械工程 博士

2015.09-2018.01 天津大学 材料工程（材料加工） 硕士

2010.09-2014.07 天津大学 材料成型及控制工程 本科

基本情况

始终从事异质薄壁结构先进点连接技术工艺研究与装备开发，在异质薄壁结构搅拌摩擦焊-铆复合连接、轻质合金搅拌摩擦焊/搅拌摩擦加工、电弧增材制造强韧性同步提升等领域积累了丰富研究经验。围绕上述研究，先后在IJMTM、JMPT、JAC等领域内权威期刊累计发表学术论文33篇，其中第一作者/通讯作者论文10篇；获授权专利6项；成果获选机械领域顶刊IJMTM封面论文。作为项目负责人，先后获得国家自然科学基金青年科学基金项目、国家资助博士后研究人员计划（C档）、中国博士后科学基金面上资助、机械系统与振动全国重点实验室开放基金、北京市博士后工作经费资助等科研项目和资助计划支持。担任Journal of Materials Processing Technology, Journal of Manufacturing Processes, Thin-Walled Structures等中科院Top期刊审稿人。

研究方向

[1]异质薄壁结构搅拌摩擦焊-铆复合连接技术

[2]轻质合金搅拌摩擦焊/搅拌摩擦加工技术

[3]电弧增材制造强韧性同步提升方法

科研项目

[1].国家自然科学基金青年科学基金项目—52405331，30万元，2025.01-2027.12，主持；

[2].国家博士后资助计划（C档）—GZC20230185，24万元，2023.10-2025.10，主持；

[3].中国博士后科学基金面上资助—2024M760167，8万元，2024.11-2025.10，主持；

[4].机械系统与振动全国重点实验室开放课题—MSV202416，10万元，2024.01-2025.12，主持；

[5].北京市博士后工作经费资助—2024-ZZ-07，9万元，2024.05-2025.10，主持；

[6].国家重点研发计划子课题—2024YFB3411103，197.62万，2024.12-2027.11，主研、课题联系人；

[7].北京市自然科学基金联合基金—L241001，100万元，2024.10-2027.09，主研；

[8].秦山核电企业委托项目，60万元，2023.12-2025.06，主研。

承担课程

[1]《人工智能导论A》

[2]《企业工程技术》

[3]《电路原理与系统实验》

[4]《认识实习》

代表性研究成果

[1]T. Yuan, Y. Li, S. Chen, X. Ren, P. Zhao, X. Zhao,H. Shan*, Microstructural evolution and mechanisms affecting the mechanical properties of wire arc additively manufactured Al-Zn-Mg-Cu alloy reinforced with high-entropy alloy particles, Journal of Alloys and Compounds, 992 (2024) 174582.

[2]P. Zhao, J. Gao, T. Yuan,H. Shan*, S. Chen, Damage parameters identification of dual-phase 800 steel based on microvoids analysis and response surface methodology, Materials Today Communications, 40 (2024) 109660.

[3]T. Yuan, X. Zhao,H. Shan*, S. Chen, X. Ren, Y. Li, Microcosmic mechanism of performance enhancement of wire arc additive manufactured Al-Zn-Mg-Cu alloy based on heat treatment, Science and Technology of Welding and Joining, 28 (2023) 569-579.

[4]H. Shan, Y. Ma*, B. Yang, Q. Feng, Y. Li*, Z. Lin, Elucidation of interface joining mechanism of aluminum alloy/dual-phase steel friction stir riveting (FSR) joint, Journal of Materials Research and Technology, 25 (2023) 6792-6811.

[5]H. Shan, B. Yang, Y. Ma*, M. Lou, Q. Feng, Y. Li*, Z. Lin, Friction stud riveting (FSR) of thick high-strength aluminum alloy structure, International Journal of Machine Tools and Manufacture, 177 (2022) 103889.

[6]H. Shan, Y. Ma*, S. Niu, B. Yang, M. Lou, Y. Li*, Z. Lin, Friction stir riveting (FSR) of AA6061-T6 aluminum alloy and DP600 steel, Journal of Materials Processing Technology, 295 (2021) 117156.

[7]Y. Ma,H. Shan, S. Niu, Y. Li*, Z. Lin, N. Ma, A Comparative Study of Friction Self-Piercing Riveting and Self-Piercing Riveting of Aluminum Alloy AA5182-O, Engineering, 7 (2021) 1741-1750.

[8]H. Shan, Y. Zhang, Y. Li, Z. Luo*, Dissimilar joining of AZ31B magnesium alloy and pure copper via thermo-compensated resistance spot welding, Journal of Manufacturing Processes, 30 (2017) 570-581.

[9]山河,李洋,余美芳,罗震*,三层板铝合金电阻点焊搭接接头的弹塑性模拟,焊接学报, 39 (2018) 19-23.

[10]山河,罗震*,张成大,敖三三,孟繁亮,激光深熔焊声源发声机理,焊接学报, 37 (2016) 26-30.

[11]B. Yang,H. Shan, X. Han, S. Lin, Y. Ma*, M. Lou, X. Wang, Y. Li*, Single-sided friction riveting process of aluminum sheet to profile structure without prefabricated hole, Journal of Materials Processing Technology, 307 (2022)117663.

[12]B. Yang,H. Shan, Y. Liang, Y. Ma*, S. Niu, X. Zhu, Y. Li*, Effect of adhesive application on friction self-piercing riveting (F-SPR) process of AA7075-T6 aluminum alloy, Journal of Materials Processing Technology, 299 (2022)117336.

[13]Y. Zhang,H. Shan, Y. Li, J. Guo, Z. Luo*, C.Y. Ma, Joining aluminum alloy 5052 sheets via novel hybrid resistance spot clinching process, Materials & Design, 118 (2017) 36-43.

[14]Y. Li,H. Shan, Y. Zhang, J. Bi, Z. Luo*, Failure Mode of Spot Welds Under Cross-Tension and Coach-Peel Loads, Welding Journal, 96 (2017) 413S-420S.

[15]Y. Zhang,H. Shan, Z. Luo*, Y. Li, J. Bi, J. Guo, F. Gao, Temperature field and microstructure characterization of AA6061/H70 dissimilar thermo-compensated resistance spot welds having different joint configurations, Journal of Manufacturing Processes, 28 (2017) 336-342.

[16]Y. Zhang,H. Shan, Y. Li, C.F. Zhao, Z. Luo*, J. Guo, C.Y. Ma, Effects of the oxide film on the spot joining of aluminum alloy sheets: a comparative study between resistance spot welding and resistance spot clinching, International Journal of Advanced Manufacturing Technology, 92 (2017) 4231-4240.

[17]S. Ao,H. Shan, X. Cui, Z. Luo*, Y.J. Chao, M. Ma, Effect of specimen width on the failure behavior in resistance spot weld tensile shear testing, Welding in the World, 60 (2016) 1095-1107.

[18]C. Liu, T. Yuan*,H. Shan, Y. Wang, H. Lai, S. Chen, A novel deep learning model for the real-time prediction of emissivity and thermal history in metal additive manufacturing processes, Journal of Manufacturing Processes, 135 (2025) 301-314.

[19]B. Yang, Y. Ma,H. Shan, Y. Li*, A Comparative Study of Self-Piercing Riveting and Friction Self-Piercing Riveting of Cast Aluminum Alloy Al-Si7Mg, Journal of Manufacturing Science and Engineering, 145 (2023)011003.

[20]B. Yang, Y. Ma*,H. Shan, S. Niu, Y. Li*, Friction self-piercing riveting (F-SPR) of aluminum alloy to magnesium alloy using a flat die, Journal of Magnesium and Alloys, 10 (2022) 1207-1219.

专利

[1]山河,李永兵,马运五,杨炳鑫,雷海洋.带有自锁的螺柱复合连接装置. ZL202020453276.6.

[2]马运五,李永兵,山河,杨炳鑫.基于半空心铆钉的两段式机械-固相复合连接方法. ZL201910158390.8.

[3]张禹,罗震,山河.金属板材咬焊复合连接装置与方法. ZL201710389597.7.

[4]李永兵,马运五,楼铭,山河,杨炳鑫.用于形成板材平底铆接的改进结构铆钉. ZL202111342601.7

[5]李永兵,杨炳鑫,马运五,山河.用于自冲摩擦铆焊工艺的铆接装置及其方法.ZL201911141643.7.

[6]杨炳鑫,李永兵,马运五,山河,雷海洋.用于单边连接的半空心螺纹铆钉. ZL202020453519.6.