2003-2008 上海交通大学 机械工程 博士
1999-2003 南京理工大学 机械设计制造及其自动化专业 学士

2023.10-至今 上海交通大学hga010网页登录 党委书记
2021.01-2023.10 上海交通大学hga010网页登录 党委副书记
2020.01至今 上海交通大学hga010网页登录 教授
2015.04-2019.12 上海交通大学hga010网页登录 机械工程系副系主任
2013.01-2019.12 上海交通大学hga010网页登录 副教授
2010.02-2012.12   上海交通大学hga010网页登录 助理研究员
2008.02-2010.02   上海交通大学hga010网页登录 师资博士后

2011-2012  美国Wright State University  博士后

激光微纳增材制造
激光喷丸强化与成形
智能激光制造装备
激光驱动高速微球测试技术

2022-2025 NSFC区域联合基金重点项目“高能重频激光冲击成形高应变率形变机理与柔性精确控形方法”，负责人
2020-2023 上海市曙光计划 “脉冲激光驱动金属微滴三维打印工艺机理与规律", 负责人
2020-2022 国家自然科学基金优秀青年科学基金 “激光冲击特种制造”，负责人
2020-2021 企业委托课题“铝合金焊接接头激光冲击强化技术研究“，负责人
2020-2021 企业委托课题“国产压合衬套残余应力分析及疲劳寿命评估，负责人
2019-2020 国家04重大科技专项“大涵道比涡扇发动机关键零部件试制国产成套装备应用示范线”，任务负责
2019-2020 企业委托课题：基于激光喷丸成形工艺的壁板展开软件开发，负责人
2019-2020 企业委托课题：激光喷丸控制系统研制，负责人
2019-2019 企业委托课题：典型材料孔结构及圆角结构激光强化数值模拟研究，负责人
2016-2018 装备预研教育部联合基金项目“叶片薄壁结构激光喷丸强化形性协调机制与服役演变规律”，负责人
2016-2019 上海市青年科技启明星项目“薄壁结构激光喷丸强化残余应力形成机理与协调控制方法研究”，负责人
2015-2017 航天联合实验室创新项目“大型复杂整体壁板激光喷丸成形工艺研究”，负责人
2015-2017 航空科学基金“激光冲击强化薄壁结构残余应力和变形控制研究”，负责人
2014-2017 国家自然科学基金基金面上项目“连续激光热辅助增强短脉冲激光喷丸成形复合能场耦合作用机理与工艺控制研究”，负责人
2014-2016 上海交通大学SMC-晨星优秀青年教师 B 类计划课题“连续、短脉冲双激光能场耦合激光喷丸成形工艺方法研究”，负责人
2014-2016 上海市科委重点项目子课题：“面向飞机装配的机器人制孔多功能末端执行器研制”，负责人
2014-2016 教育部归国留学人员基金“激光局部热辅助增强激光喷丸成形效应的工艺方法研究”
2010-2012 国家自然科学基金青年基金项目“薄板高应变率激光微喷丸成形机理与规律研究”，负责人
2011-2013 国家自然科学基金面上项目”激光冲击微坑高应变率局部动态塑性加工机理与工艺规划研究”，第二承担人
2011-2012 国家商用飞机制造工程技术研究中心创新基金“大厚度复合材料/钛合金组合结构一体化连接制孔技术” 负责人
2010-2011 机械系统与振动国家重点实验室开放课题“面向民机装配层叠薄壁结构群孔精密高效自动化加工方法研究”，负责人
2009-2010 中国博士后基金特别资助课题“微介观尺度薄板高应变率激光微喷丸成形工艺机理研究”，负责人
2009-2010 教育部博士点基金“微介观尺度下薄板高应变率激光微喷丸成形工艺研究”，第二承担人
2009-2011 上海市科委重点项目子课题“面向工程机械制造业产品服务的信息化技术的研究及应用”， 负责人
2009-2011 上海市民机创新工程子课题“飞机装配柔性制孔装备与研究平台建设”，第二承担人
2009-2012 中国商飞大型客机关键技术攻关课题“大型客机总装密封性能先进检测与功能模拟试验技术研究”，第二承担人

2024
1. Guohu Luo, Di Wu, Yu Zhou, Yongxiang Hu*, Siyuan Chen. Alternate deposition and remelting microdroplets via single laser for printing low-defect and high-performance metal micropillars. International Journal of Machine Tools and Manufacture, 2024, 197: 104136.
2. Di Wu, Yongxiang Hu*, Guohu Luo, Yu Zhou. Tilting behaviors of metal microjet in laser-induced forward transfer. Journal of Manufacturing Science and Engineering-Transactions of the ASME, 2024, 146(3): 031005.
3. Jiancheng Jiang, Zhi Li, Yongxiang Hu*, Siyuan Chen, Yiqiao Song. Density-based topology optimization of multi-condition peening pattern for laser peen forming. International Journal of Mechanical Sciences, 2024, 267: 108968.
2023
1. Guohu Luo, Di Wu, Yongxiang Hu*, Zhenqiang Yao. A unified analytical model for the flight distance of flying microdroplet before solidification. Advanced Powder Technology, 2023, 34(2): 103934. DOI: https://doi.org/10.1016/j.apt.2022.103934
2. Ruoyu Yang, Yongxiang Hu*. Determination of process window for laser peening of thin metal sheets by localized indentation analysis. The International Journal of Advanced Manufacturing Technology, 2023, 126: 623–634. DOI: https://doi.org/10.1007/s00170-023-11138-1
3. Jiancheng Jiang, Yongxiang Hu*, Xueting He. Process-based surface flattening method for laser peen forming of complex geometry. Journal of Manufacturing Processes, 2023, 92: 371-383. DOI: https://doi.org/10.1016/j.jmapro.2023.02.056
4. Quan Li, Mingyu Gong*, Jiancheng Jiang, YW Chen, HY Ma, YJ Wu, Yongxiang Hu, Atomic-level quantification of twinning shears in magnesium alloy. Acta Materialia, 2023, 246: 118665. DOI: https://doi.org/10.1016/j.actamat.2022.118665
5. Jiancheng Jiang, Yongxiang Hu*, Xinsen Tang. Peening pattern optimization with integer eigen-moment density for laser peen forming of complex shape. Structural and Multidisciplinary Optimization, 2023, 66(4): 84.DOI: https://doi.org/10.1007/s00158-023-03544-6
6. Yifei Peng¹, Guohu Luo¹, Yongxiang Hu*, Dingbang Xiong*. Dynamic deformation mechanism in submicro-laminated copper with interlamellar graphene multilayers. Acta Materialia, 2023, 252: 118941. DOI: https://doi.org/10.1016/j.actamat.2023.118941
7. Di Wu, Guohu Luo, Yongxiang Hu*, Yu Zhou, Meng Chen. Printing regime for single metal microdroplet deposition in laser-induced forward transfer. Optics and Lasers in Engineering, 2023, 167: 107617. DOI: https://doi.org/10.1016/j.optlaseng.2023.107617
8. Yifei Peng¹, Guohu Luo¹, Jiayu Chen, Yongxiang Hu*, Dingbang Xiong*. Enhanced Energy Dissipation of Graphene/Cu Nanolaminates under Extreme Strain Rate Ballistic Perforation. Composites Part A: Applied Science and Manufacturing, 2023, 172: 107611. DOI: https://doi.org/10.1016/j.compositesa.2023.107611
9. Yu Zhou, Guohu Luo, Yongxiang Hu*, Di Wu, Cheng Hu. Femtosecond laser printing patterned nanoparticles on flexible substrate by tuning plasmon resonances via polarization modulation. International Journal of Machine Tools and Manufacture, 2023, 189: 104040. DOI: https://doi.org/10.1016/j.ijmachtools.2023.104040
10. Han Cheng, Yongxiang Hu*. Crack face closure effect and opening behaviors of fatigue pre-crack treated by laser peening. International Journal of Fatigue, 2023: 107740. DOI: https://doi.org/10.1016/j.ijfatigue.2023.107740
11. Ruoyu Yang, Yongxiang Hu*. Plastic deformation mechanisms and their threshold pressures of Ti6Al4V thin-walled structures induced by laser peen forming. Optics & Laser Technology, 2023, 167: 109722. DOI: https://doi.org/10.1016/j.optlastec.2023.109722

2022
1. Guohu Luo, Di Wu, Yu Zhou, Yongxiang Hu*, Zhenqiang Yao, Laser printing of large-scale metal micro/nanoparticle array: Deposition behavior and microstructure. International Journal of Machine Tools and Manufacture, 2022, 173: 103845.
2. Yifei Peng，Guohu Luo, Yongxiang Hu*, Ding-Bang Xiong*, Extreme strain rate deformation of nacre-inspired graphene/copper nanocomposites under laser-induced hypersonic micro-projectile impact. Composites Part B: Engineering, 2022, 235(15): 109763
3. Guohu Luo, Di Wu, Yu Zhou, Yongxiang Hu*, Zhenqiang Yao. Elucidating ejection regimes of metal microdroplets in voxel-based laser-induced forward transfer. Additive Manufacturing, 2022, 55: 102814
4. Yu Zhou, Guohu Luo, Di Wu, , Yongxiang Hu*, Efficient modeling of metal ablation irradiated by femtosecond laser via simplified two-temperature model coupling molecular dynamics [J]. Journal of Manufacturing Process77, 783-793, 2022
5. Maziar Toursangsaraki，YongxiangHu*. Crystal Plasticity Evaluation of Laser Peening Effects on Improving High-Cycle Fatigue Life of Al-Li Friction Stir Welded Joints. 2022, 223: 111147
6. Maziar Toursangsaraki, Yongxiang Hu*, Tianyang Zhang. Crystal plasticity quantification of laser peening strengthening effects on AA2195-T6 friction stir welded joints. International Journal of Advanced Manufacturing Technology, 2022, 120, 11: 7873-7893

2021
1. Maziar Toursangsaraki, Quan Li, Yongxiang Hu*, Huamiao Wang, Duo Zhao, Yaobang Zhao. Crystal plasticity modeling for mechanical property prediction of AA2195-T6 friction stir welded joints. Materials Science & Engineering A , 2021, 823:141677
2. Maziar Toursangsaraki, Huamiao Wang, Yongxiang Hu*, Dhandapanik Karthik, Crystal Plasticity Modeling of Laser Peening Effects on Tensile and High Cycle Fatigue Properties of 2024-T351 Aluminum Alloy[J]. Journal of Manufacturing Science and Engineering, ASME Transactions, 2021, 143(7): 071015.
3. Dhandapanik Karthik, Jiancheng Jiang, Yongxiang Hu*, Zhenqiang Yao, Effect of multiple laser shock peening on microstructure, crystallographic texture and pitting corrosion of Aluminum-Lithium alloy 2060-T8. Surface and Coatings Technology, 2021: 127354.
4. Yu Zhou, Guohu Luo, Yongxiang Hu*, Di Wu, Zhenqiang Yao, Interaction properties between molten metal and quartz by molecular dynamics simulation. Journal of Molecular Liquids, 2021, 342: 117474.
5. Jiancheng Jiang, Yongxiang Hu*, Maziar Toursangsaraki, Improvement of numerical instabilities in process planning of laser peen forming based on perimeter constraint, Advanced Laser Processing and Manufacturing V. SPIE, 2021, 11892: 35-49.
6. Maziar Toursangsaraki, Yongxiang Hu*, Jiancheng Jiang, Experimental investigation of laser peening effects on tensile properties of AA2195-T6 friction stir welded joints, Advanced Laser Processing and Manufacturing V. SPIE, 2021, 11892: 26-34.

2020
1. Mingsheng Luo, Yongxiang Hu*, L. Hu, Z. Yao. Efficient process planning of laser peen forming for complex shaping with distributed eigen-moment. Journal of Materials Processing Technology, 2020, 279: 116588.
2. Yongxiang Hu*, Hai Cheng, Jianhua Yu, Zhenqiang Yao, An experimental study on crack closure induced by laser peening in pre-cracked aluminum alloy 2024-T351 and fatigue life extension, International Journal of Fatigue, 2020, 130: 105232
3. D. Karthik, Y. Hu, Z. Yao. Grain orientation and crystallographic texture governed gradient oxidation in laser peening. Materials Letters, 2020, 268: 127630.
4. 胡永祥*, 罗明生, 解宇飞, 姚振强. 激光喷丸成形轴线几何效应解析建模. 中国科学: 物理学 力学 天文学, 2020, 50: 034206.
5. 吴耀骏, 胡永祥, 姚振强. 激光喷丸强化系统协调控制方法与实现. 机械制造与自动化, 2020, 49(01): 165-168.

2019
1. Yongxiang Hu*, Yufei Xie, Di Wu, Zhenqiang Yao Quantitative evaluation of specimen geometry effect on bending deformation of laser peen forming. International Journal of Mechanical Sciences, 2019, 150: 404-410.
2. Ruoyu Yang, Yongxiang Hu*, Mingsheng Luo, Han Cheng, Zhenqiang Yao, Distortion control of thin sections by single-sided laser peening, Optics and Lasers in Engineering, 115 (2019) 90-99.
3. Yongxiang Hu*, Mengqi Lai, Zonghao Hu, Zhenqiang Yao, Effect of multiple laser peening on surface integrity and microstructure of laser additive manufactured Ti6Al4V titanium alloy, Rapid Prototyping Journal
4. Jie Zhao, Yongxiang Hu*, Surface morphology formation of Ti films in laser-induced forward transfer, Surface Topography-Metrology and Properties, 2019, 7(2): 025022
5. Y.X. Hu*, Y. Song, Y. Li, Z.Q. Yao, An analytical model to predict interfacial burr height for metal stack drilling, Proc. Inst. Mech. Eng. Part B-J. Eng. Manuf., 2019: 233(1): 99-108.
6. 江剑成, 何雪婷, 胡永祥, 姚振强. 复杂型面激光喷丸成形毛坯展平方法. 电加工与模具, 2019, (05): 38-43
7. 赖梦琪, 胡宗浩, 胡永祥, 姚振强. 增材制造钛合金激光喷丸强化表面完整性影响实验研究. 应用激光, 2019, 39(01): 9-16.

2018
1. Yongxiang Hu*, Ruoyu Yang, Dongyu Wang, Zhenqiang Yao. Geometry distortion and residual stress of alternate double-sided laser peening of thin section component. Journal of Materials Processing Technology, 2018, 251: 197-204.
2. M. Luo, Y. Hu*, D. Qian, Z. Yao. Numerical modelling and mechanism analysis of hybrid heating and shock process for laser-assisted laser peen forming. Journal of Manufacturing Science and Engineering, Transaction of ASME, 2018, 140(11): 111009.
3. 余雄超, 胡永祥*, 姚振强. 大型工件扫描式激光喷丸系统研制. 航空制造技术, 2018, 61(07): 84-88.
4. 余雄超, 胡永祥*, 姚振强. 大型工件激光喷丸三维扫描光路系统光斑畸变分析与校正方法研究. 电加工与模具, 2018, (04): 45-47+64.
5. 解宇飞, 胡永祥*, 姚振强. 激光喷丸成形单曲率几何效应研究. 航空制造技术, 2018, 61(Z2): 59-63

2017
1. Zhengyu Zhang, Yongxiang Hu*, Zhenqiang Yao. Shape Prediction for Laser Peen Forming of Fiber Metal Laminates by Experimentally Determined Eigenstrain. Journal of Manufacturing Science and Engineering, 2017, 139(4): 041004.
2. Yongxiang Hu*, Han Cheng, Jiaxi Xu and Zhenqiang Yao. A coupling model to simulate the dynamic process of blister-actuated nanosecond laser-induced forward transfer. Journal of Physics D: Applied Physics, 2017, 50(32): 325305.
3. 杨荣雪, 胡永祥*, 姚振强. 带筋壁板激光喷丸成形的固有应变建模及变形规律研究. 应用激光, 2017, 38(2): 527-533.
4. 胡宗浩, 罗明生, 胡永祥*, 姚振强. 大型壁板激光喷丸成形技术研究与应用. 航空制造技术, 2017, (20): 43-48.

2016
1. Hu, Y.*, Luo, M., and Yao, Z., Increasing the Capability of Laser Peen Forming to Bend Titanium Alloy Sheets with Laser-Assisted Local Heating, Materials & Design, 2016， 90: 364-372.
2015
1. Y. Hu*, X. Zheng, D. Wang, et al. Application of laser peen forming to bend fibre metal laminates by high dynamic loading. Journal of Materials Processing Technology, 2015, 226: 32-39.
2. Y. Hu*, Z. Li, X. Yu, et al. Effect of elastic prestress on the laser peen forming of aluminum alloy 2024-T351: Experiments and eigenstrain-based modeling. Journal of Materials Processing Technology, 2015, 221(0): 214-224.
2014
1.Hu, Y.X*, Li, Z., Li, K.M, Yao, Z.Q. Predictive Modeling and Uncertainty Quantification of Laser Shock Processing by Bayesian Gaussian Processes With Multiple Outputs. Journal of Manufacturing Science and Engineering, 2014. 136(4), 041014.
2. K. Li, Z. Yao, Y. Hu*, et al. Friction and wear performance of laser peen textured surface under starved lubrication. Tribology International, 2014, 77(0): 97-105.
2013
2.A. Vasu, Y.X Hu, R.V. Grandhi, Differences in plasticity due to curvature in laser peened components, Surface and Coatings Technology, 235 (2013) 648-656.
3.K.M. Li., Y.X. Hu, Z.Q. Yao. Experimental study of micro dimple fabrication based on laser shock processing. Optics & Laser Technology, 2013, 48: 216-225.
4.姚振强, 胡永祥*. 基于短脉冲激光束干涉的硅表面亚微米结构加工工艺. 机械工程学报， 2013, 49(6): 122-128

2012
1.Y.X. Hu*, R.V. Grandhi. Efficient numerical prediction of residual stress and deformation for large-scale laser shock processing using the eigenstrain methodology. Surface and Coatings Technology, 2012, 206(15): 3374-3385.
2.Yongxiang Hu*, Kangmei Li, Chenjie Qi, Zhenqiang Yao, Ramana V. Grandhi. Size effect on indentation depth of oxygen-free high purity copper induced by laser shock processing. Transactions of Nonferrous Metals Society of China 22(2012) s573−s578
2011
1. Y.X Hu*, Z. Yao, X. Xu. Experimental Investigation on the Bending Deformation of thin 1060 Pure Aluminum Sheet by Laser Peen Forming. In: Champaigne J, ed, The 11th International Conference on Shot Peening, South Bend, Indiana, USA, 2011: 341-346
2010
2.Yongxiang H*u, Xiaoxia Xu, Zhenqiang Yao, and Jun Hu. Laser peen forming induced two way bending of thin sheet metals and its mechanisms. Journal of Applied Physics, 2010, 108(7): 073117.1-073117.7
3.Yongxiang Hu, Yefei Han, Zhenqiang Yao, and Jun Hu. Three-Dimensional Numerical Simulation and Experimental Study of Sheet Metal Bending by Laser Peen Forming. Transactions of ASME, Journal of Manufacturing Science and Engineering, 2010, 132(6): 061001.1-061001.10

测试原理与技术 本科生 48学时  3学分
工程学导论 本科生   48学时  3学分
弹塑性力学 研究生   48学时  3学分

发明专利授权：
[1] 用于确定复杂曲面形状工件激光喷丸成形工艺参数的方法. 专利号：201510102659.2
[2] 一种用于大型工件激光喷丸成形的光路装置及方法. 专利号：201510197097.4
[3] 薄壁结构件的单侧激光喷丸强化方法 . 专利号：201810515226.3
[4] 适用于扫描光斑校形的动态光学聚焦机械装置. 专利号：201810631021.1
[5] 激光喷丸成形复杂曲面分布式工艺参数的确定方法. 专利号：201910567345.8
[6] 一种基于计算模型确定激光喷丸固有应变的方法. 专利号：201710829391.1
[7] 一种适用于柱形内腔结构激光加工的装置. 专利号：201911165636.0
[8] 用于大型壁板工件喷丸成形的柔性预应力夹具. 专利号：201611180803.5
[9] 用于大曲率半径曲面法向矢量快速检测方法. 专利号： 201110099364.6
[10] 一种适用于柱形内腔结构激光加工的装置. 专利号：201911165636.0
[11] 基于脉冲激光驱动的微滴三维打印系统及方法. 专利号：202110105753.9

软件著作权：
[1] 激光喷丸成形壁板展平软件1.0a. 软著登字第7804128号
[2] 激光喷丸控制系统1.0a. 软著登字第6630757号

机械工程学会特种加工分会，委员
上海市机械工程学会，理事
数控机床产业技术创新战略联盟，理事
数字化制造技术航空科技实验室委员，学术委员会委员

2021 教学成果一等奖（排1），上海交通大学
2020 “烛光奖”一等奖，上海交通大学
2020 上海市曙光学者
2019 国家优秀青年科学基金
2018  晨星优秀青年教师 A类，上海交通大学
2017 上海交通大学教书育人提名奖
2016  上海市青年科技启明星
2015  上海交通大学十佳班主任
2014  SMC-晨星优秀青年教师 B类，上海交通大学
2013  最受欢迎教师奖－专业核心课程，上海交通大学hga010网页登录
2012  优秀班主任，上海交通大学
2010  SMC-晨星优秀青年教师 C类，上海交通大学
2008  上海市科技进步三等奖