基本信息

袁涛，教授、博士生导师、北京市青年教学名师，副院长。获选北京市属高校教师队伍建设支持计划优秀青年人才、朝阳区“凤凰计划”优秀青年人才、北京工业大学高端人才队伍建设计划优秀人才。近年来，在焊接/增材制造/智能制造等领域开展先进制造方法与理论研究，先后以第一作者/通讯作者发表SCI检索论文40余篇。作为负责人先后承担包括国家重点研发计划子课题、国家自然科学基金面上项目、青年项目、北京市教委-市自然科学基金联合资助（市教委重点项目）、北京市教委科技计划一般项目、中国国家博士后基金特别资助等项目10余项。获得全国高校教师教学创新大赛三等奖、国家级教学成果二等奖、国家级虚拟仿真实验教学项目（国家级一流课程）、辽宁省教育教学成果一等奖等。

工作经历

2023.11至今       北京工业大学   机械工程   教授

2020.07-2023.10   北京工业大学   机械工程   副教授

2016.07-2020.06   北京工业大学   机械工程   讲师、师资博后

教育经历

2013.09-2015.09   美国威斯康星大学   材料加工工程         博士（联合培养）

2012.09-2016.09   天津大学           材料加工工程         博士

2010.09-2012.09   天津大学           材料加工工程         硕士

2006.09-2010.06   山东建筑大学       材料成型及控制工程   本科

研究方向

[1] 增等减融合制造方法与理论

[2] 智能制造系统与预测性维护

[3] 薄壁结构连接与半固态加工

科研项目

[1]. 国家重点研发计划，超千兆帕高强钢大径厚比箱型结构多热源复合小变形智能焊接技术与装备，2024YFB3411103；

[2]. 国家自然科学基金面上项目，基于搅拌摩擦加工的增-等材融合制造方法与理论，52075009；

[3]. 国家自然科学基金青年项目，高强铝合金电弧增材制造弱拘束条件下凝固裂纹自愈合理论研究，51704013；

[4]. 国家重点研发计划，空间曲线焊缝机器人搅拌摩擦焊过程在线力位混合动力学控制技术，2018YFB1306400；

[5]. 科技部创新方法工作专项项目，创新方法高等教育人才培养研究与示范，2020IM030100；

[6]. 北京市教委科技计划，基于脉冲振荡的铝合金增材制造组织性能控制方法及理论，KM201810005016；

[7]. 中国博士后科学基金特别资助，高强铝合金原位增材制造专用异质双丝特性研究，2018T110018；

[8]. 中国博士后科学基金面上项目，铝镁异种合金搅拌摩擦焊接头金属间化合物调控方法研究，2016M600881。

承担课程

[1] 《工程材料及成形技术基础》

[2] 《基于MBD的先进制造技术Ⅱ实践 》

[3] 《创新设计与实现》

[4] 《数字化制造中的建模与仿真技术》

[5] 《先进连接与加工方法》

近年代表性论文

[1] T. Yuan, X. Chai, Z. Luo, S. Kou, Predicting susceptibility of magnesium alloys to weld-edge cracking, Acta Materialia 90 (2015) 242-251.

[2] T. Yuan, S. Kou, Z. Luo, Grain refining by ultrasonic stirring of the weld pool, Acta Materialia 106 (2016) 144-154.

[3] T. Yuan, Z. Luo, S. Kou, Grain refining of magnesium welds by arc oscillation, Acta Materialia 116 (2016) 166-176.

[4] S. Wang, S. Chen, T. Yuan, X. Jiang, P. Zhao, H. Shan, H. Zhang, W. Ding, Inhomogeneity and anisotropy of Al-Zn-Mg-Cu alloy manufactured by wire arc additive manufacturing: microstructure, mechanical properties, stress corrosion cracking susceptibility, Virtual and Physical Prototyping 19 (2024) 2348038.

[5] X. Ren, X. Jiang, T. Yuan, X. Zhao, S. Chen, Microstructure and properties research of Al-Zn-Mg-Cu alloy with high strength and high elongation fabricated by wire arc additive manufacturing, Journal of Materials Processing Technology 307 (2022) 117665.

[6] T. Yuan, D. Xu, X. Jiang, P. Zhao, S. Chen, Enhanced strength-plasticity of 2319 Al-Cu alloy formed by hybrid interlayer friction stir processing and wire-arc additive manufacturing, Journal of Materials Processing Technology 321 (2023) 118146.

[7] T. Yuan, D. Xu, X. Jiang, S. Chen, Origins and optimization mechanisms of periodic microstructures in Al-Cu alloys fabricated by wire arc additive manufacturing combined with Interlayer Friction Stir Processing, Materials Science and Engineering: A 916 (2024) 147337.

[8] M. Xu, H. Zhang, T. Yuan, Z. Yan, S. Chen, Microstructural characteristics and cracking mechanism of Al-Cu alloys in wire arc additive manufacturing, Materials Characterization 197 (2023) 112677.

[9] S. Wang, S. Chen, T. Yuan, X. Jiang, P. Zhao, W. Ding, Crystallographic characteristics and mechanical behavior of laser welded joints of hot roll bending parts, Materials Characterization 207 (2024).

[10] M. Xu, S. Chen, T. Yuan, X. Jiang, H. Zhang, Effect of thermal cycles on the microstructure and properties of the Al-Zn-Mg-Cu alloy during wire-arc additive manufacturing, Journal of Alloys and Compounds 928 (2022) 167172.

[11] 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.

[12] 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.

[13] Z. Lu, W. Gong, S. Chen, T. Yuan, C. Kan, X. Jiang, Interfacial microstructure and local bonding strength of magnetic pulse welding joint between commercially pure aluminum 1060 and AISI 304 stainless steel, Journal of Manufacturing Processes 46 (2019) 59-66.

[14] X. Li, S. Chen, T. Yuan, X. Jiang, Y. Han, Improving the properties of friction stir welded 2219-T87 aluminum alloy with GTA offset preheating, Journal of Manufacturing Processes 51 (2020) 10-18.

[15] T. Yuan, Z. Yu, S. Chen, M. Xu, X. Jiang, Loss of elemental Mg during wire + arc additive manufacturing of Al-Mg alloy and its effect on mechanical properties, Journal of Manufacturing Processes 49 (2020) 456-462.

[16] Z. Yu, T. Yuan, M. Xu, H. Zhang, X. Jiang, S. Chen, Microstructure and mechanical properties of Al-Zn-Mg-Cu alloy fabricated by wire + arc additive manufacturing, Journal of Manufacturing Processes 62 (2021) 430-439.

[17] J. Xiaoqing, L. Yongyong, T. Yuan, C. Shujun, W. Lei, J. Wang, Enhanced mechanical properties of dissimilar Al and Mg alloys fabricated by pulse current assisted friction stir welding, Journal of Manufacturing Processes 76 (2022) 123-137.

[18] T. Yuan, H. Zhang, X. Jiang, S. Chen, M. Xu, X. Liu, Investigation on liquation cracks of dissimilar magnesium alloy welds using the circular-patch experiment and numerical simulation, Journal of Manufacturing Processes 75 (2022) 49-59.

[19] S. Wang, S. Chen, T. Yuan, X. Jiang, P. Zhao, W. Ding, X. Li, Insights into microstructure evolution and fracture mechanisms of welded joints of high strength steel patchwork components, Journal of Manufacturing Processes 118 (2024) 32-44.

[20] Z. Yan, S. Chen, X. Li, T. Yuan, Preliminary study of friction stir overlap welding on variable polarity plasma arc weld, Journal of Materials Research and Technology 9 (2020) 322-330.

[21] S. Chen, M. Xu, T. Yuan, X. Jiang, H. Zhang, X. Zheng, Thermal-microstructural analysis of the mechanism of liquation cracks in wire-arc additive manufacturing of Al-Zn-Mg-Cu alloy, Journal of Materials Research and Technology 16 (2022) 1260-1271.

[22] T. Yuan, X. Ren, S. Chen, X. Jiang, Grain refinement and property improvements of Al-Zn-Mg-Cu alloy by heterogeneous particle addition during wire and arc additive manufacturing, Journal of Materials Research and Technology 16 (2022) 824-839.