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个人简介

教育背景 2013-2019 上海交通大学,机械工程,博士 2009-2013 中国科学技术大学,机械设计制造及其自动化,学士 工作经历 2022.04-至今:上海交通大学,机械与动力工程学院,副教授 2018.11-2022.03:日本大阪大学,接合科学研究所,特任助理教授 出访及挂职经历 2015.09-2016.03:美国通用汽车全球研发中心,联合培养博士 科研项目 2023-2025 国家海外高层次人才计划(青年项目),主持 2022-2025 国家重点研发计划高性能制造技术与重大装备专项课题,课题负责人 2022-2025 中国科协青年人才托举工程项目,主持 2022-2024 上海市浦江人才计划(A类),主持 2021-2022 日本学术振兴会(JSPS)科研费若手研究项目,主持 2021-2024 日本天田基金会若手研究项目,主持 软件版权登记及专利 [1] 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, ZL201810148626.5. [2] 发明专利:基于半空心铆钉的两段式机械-固相复合连接方法, 中国, ZL201910158390.8. [3] 发明专利:双向机械互锁与固相连接复合的点连接方法, 中国, ZL202111117771.5. [4] 发明专利:基于磁控电阻点焊的铝合金与钢优化焊接方法, 中国, ZL202010595967.4. [5] 发明专利:Rivet for friction self-piercing riveting and friction self-piercing riveting connection system thereof: United States Patent, US10695821B2. [6] 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, ZL201610566456.3. [7] 发明专利:用于形成板材平底铆接的改进结构铆钉, 中国, ZL202111342601.7. [8] 发明专利:半空心铆钉及其无预制孔铆接装置及方法, 中国, ZL201811392661.8. [9] 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, ZL201910245821.4. [10] 发明专利:用于自冲摩擦铆焊工艺的铆接装置及其方法, 中国, ZL201911141643.7. [11] 实用新型专利:带有自锁的螺柱复合连接装置, 中国, ZL202020453276.6. [12] 实用新型专利:用于单边连接的半空心螺纹铆钉, 中国, ZL202020453519.6. 荣誉奖励 2022,国家海外高层次人才计划(青年项目) 2022,中国科协青年人才托举工程 2022,上海海外高层次人才引进计划 2022,上海市浦江人才计划(A类) 2021,美国焊接学会 A. F. Davis Silver Medal Award (Machine Design) 2020,第十届上银优秀机械博士论文奖(银奖) 2020,中国汽车工程学会优秀博士学位论文优秀奖 2020,上海交通大学优秀博士学位论文 (全校Top 15/1352) 2020,汽车轻量化技术创新战略联盟“汽车轻量化应用技术创新成果奖” (排2) 2018,ASME MSEC2018 Best Paper Award

研究领域

高性能构件材料-结构-工艺-性能一体化设计及制造: 1. 轻金属/异质材料/异形结构铆接及铆焊复合连接技术 2. 非均匀结构多尺度性能评估与失效预测 3. 复合材料/金属异质构件高性能制造

近期论文

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【2023年度】 [1] Bingxin Yang, Yunwu Ma*, He Shan, and Yongbing Li*. A comparative study of self-piercing riveting and friction self-piercing riveting (F-SPR) of Cast Aluminum Alloy Al-Si7Mg. Transactions of the ASME: Journal of Manufacturing Science and Engineering, 2023, 145(1): 011003. [2] Qinghang Wang, Haowei Zhai, Shuai Chen, Li Wang, Lixin Huang, Jun Zhao, Hongbo Xia*, Yunwu Ma*. Simultaneous enhancement of strength and ductility in friction stir welded AZ31 alloy via multi-pass hot-rolling and subsequent annealing. Journal of Materials Research and Technology, 2023, 23: 5181-5192. 【2022年度】 [1] Yunwu Ma, Bingxin Yang, Shanqing Hu, He Shan, Peihao Geng Yongbing Li*, and Ninshu Ma, Combined strengthening mechanism of solid-state bonding and mechanical interlocking in friction self-piercing riveted AA7075-T6 aluminum alloy joints. Journal of Materials Science & Technology 105 (2022): 109-121. [2] Yunwu Ma, Yohei Abe, Peihao Geng*, Reiki Akita, Ninshu Ma*, and Ken-ichiro Mori. Adhesive dynamic behavior in the clinch-bonding process of aluminum alloy A5052-H34 and advanced high-strength steel JSC780. Journal of Materials Processing Technology, 305 (2022): 117602. [3] Peihao Geng, Yunwu Ma*, Ninshu Ma*, Hong Ma*, Yasuhiro Aoki, Huihong Liu, Hidetoshi Fujii, Chuantong Chen. Effects of rotation tool-induced heat and material flow behaviour on friction stir lapped Al/steel joint formation and resultant microstructure. International Journal of Machine Tools and Manufacture, 174 (2022): 103858. [4] Bingxin Yang, Yunwu Ma*, He Shan, Sizhe Niu, and Yongbing 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. [5] He Shan, Bingxin Yang, Yunwu Ma*, Ming Lou, Yongbing Li*, and Zhongqin Lin. Friction Stud Riveting (FSR) of Thick High Strength Aluminum Alloy Structure. International Journal of Machine Tools and Manufacture, 177 (2022): 103889. [6] Bingxin Yang, He Shan, Ying Liang, Yunwu Ma*, Sizhe Niu, Xiaobo Zhu, and Yongbing Li*. Effect of Adhesive Application on Friction Self-Piercing Riveting (F-SPR) Process of AA7075-T6 Aluminum Alloy. Journal of Materials Processing Technology (2022): 117336. [7] Peihao Geng, Masashi Morimura, Hong Ma, Yunwu Ma*, Ninshu Ma*, Huihong Liu, Yasuhiro Aoki, Hidetoshi Fujii, Guoliang Qin. Elucidation of intermetallic compounds and mechanical properties of dissimilar friction stir lap welded 5052 Al alloy and DP590 steel. Journal of Alloys and Compounds, (2022). [8] Tao Wu, Yunwu Ma*, Hongbo Xia, Peihao Geng, Thomas Niendorf, and Ninshu Ma*. Measurement and simulation of residual stresses in laser welded CFRP/steel lap joints. Composite Structures 292 (2022): 115687. [9] Hongbo Xia, Yunwu Ma*, Chuantong Chen, Jianhui Su, Chengsong Zhang, Caiwang Tan, Liqun Li, Peihao Geng, and Ninshu Ma*. Influence of laser welding power on steel/CFRP lap joint fracture behaviors. Composite Structures 285 (2022): 115247. [10] Peihao Geng, Masashi Morimura, Song Wu, Yong Liu, Yunwu Ma*, Ninshu Ma*, Yasuhiro Aoki, Hidetoshi Fujii, Hong Ma, and Guoliang Qin. Prediction of residual stresses within dissimilar Al/steel friction stir lap welds using an Eulerian-based modeling approach. Journal of Manufacturing Processes 79 (2022): 340-355. [11] Bingxin Yang, He Shan, XIaohui Han, Sen Lin, Yunwu Ma*, Ming Lou, Xiaojie Wang, and Yongbing Li*. Single-sided friction riveting process of aluminum sheet to profile structure without prefabricated hole. Journal of Materials Processing Technology 307 (2022): 117663. [12] Shanqing Hu, Amberlee S. Haselhuhn, Yunwu Ma, Zhuoran Li, Lin Qi, Yongbing Li*, Blair E. Carlson, and Zhongqin Lin. Effect of external magnetic field on resistance spot welding of aluminum to steel. Science and Technology of Welding and Joining, 27:2 (2022): 1-8. [13] Sendong Ren *, Yunwu Ma, and Ninshu Ma*. Development of FEA-ANN integrated approach for process optimization of coaxial one-side resistance spot welding of Al5052 and CFRP. Transactions of the ASME: Journal of Manufacturing Science and Engineering 144, no.1 (2022): 011004. [14] Sendong Ren *, Yunwu Ma, Ninshu Ma*, Qian Chen, and Haiyuan Wu. Digital twin for the transient temperature prediction during coaxial one-side resistance spot welding of Al5052/CFRP. Transactions of the ASME: Journal of Manufacturing Science and Engineering 144, no. 3 (2022): 031015. [15] Peihao Geng*, Hong Ma, Yunwu Ma, Kazuki Murakami, Ninshu Ma*, Huihong Liu, Yasuhiro Aoki, and Hidetoshi Fujii, Flat friction spot joining of aluminum alloy to carbon fiber reinforced polymer sheets: experiment and simulation. Journal of Materials Science & Technology 107 (2022): 266-289. [16] 杨炳鑫,马运五,山河,杨天豪,孙靖,李永兵*. 2A12-T4 铝合金自冲摩擦铆焊接头力学行为研究. 航空学报, 2022, (2): 625111-625111. 【2021年度】 [1] Yunwu Ma, He Shan, Sizhe Niu, Yongbing Li*, Zhongqin Lin, and Ninshu Ma, A Comparative Study of Friction Self-Piercing Riveting and Self-Piercing Riveting of Aluminum Alloy AA5182-O. Engineering 7 (12), (2021): 1732-1740. [2] Yunwu Ma, Sizhe Niu, Huihong Liu, Yongbing Li*, and Ninshu Ma. Microstructural evolution in friction self-piercing riveted aluminum alloy AA7075-T6 joints. Journal of Materials Science & Technology 82 (2021): 80-95. [3] Yunwu Ma*, Akira Takikawa, Jun Nakanishi, Kazuyoshi Doira, Tetsuo Shimizu, Yongxin Lu, and Ninshu Ma*. Measurement of local material properties and failure analysis of resistance spot welds of advanced high-strength steel sheets. Materials & Design 201 (2021): 109505. [4] Yunwu Ma, Yang Yu, Peihao Geng*, Ryohei Ihara, Kyohei Maeda, Reiichi Suzuki, Tetsuo Suga, and Ninshu Ma*. Fracture modeling of resistance spot welded ultra-high-strength steel considering the effect of liquid metal embrittlement crack. Materials & Design 210 (2021): 110075. [5] He Shan, Yunwu Ma*, Sizhe Niu, Bingxin Yang, Ming Lou, Yongbing Li*, and Zhongqin Lin. Friction stir riveting (FSR) of AA6061-T6 aluminum alloy and DP600 steel. Journal of Materials Processing Technology 295 (2021): 117156. [6] Shanqing Hu, Amberlee S Haselhuhn, Yunwu Ma, Yongbing Li*, Blair E CarlSon, and Zhongqin Lin, Influencing mechanism of inherent aluminum oxide film on coach peel performance of baked Al-Steel RSW. Materials and Design 197 (2021): 109250. [7] Sendong Ren, Yunwu Ma*, Ninshu Ma*, Shuhei Saeki, and Yoshiaki Iwamoto. 3-D modelling of the coaxial one-side resistance spot welding of AL5052/CFRP dissimilar material. Journal of Manufacturing Processes 68 (2021): 940-950. [8] Wenjia Huang, Ninshu Ma*, Yunwu Ma*, Toshiro Amaishi, Kenji Takada, and Takayuki Hama. Material Model Development of Magnesium Alloy and Its Strength Evaluation. Materials 14, no. 2 (2021): 454. [9] Sizhe Niu, Ming Lou*, Yunwu Ma, and Yongbing 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): 140329. [10] Sizhe Niu, Ming Lou*, Yunwu Ma, Bingxin Yang, He Shan, and Yongbing Li*, Resistance rivet welding of magnesium/steel dissimilar materials. Materials Letters 282 (2021): 128876. [11] Shanqing Hu, Amberlee S. Haselhuhn, Yunwu Ma, Yongbing Li*, Blair E. Carlson, and Zhongqin Lin. Sensitivity of dissimilar aluminum to steel resistance spot welds to weld gun deflection. Journal of Manufacturing Processes 68 (2021): 534-545. [12] Ninshu Ma *, Peihao Geng*, Yunwu Ma, Katsushi Shimakawa, Jeong-Won Choi, Yasuhiro Aoki, and Hidetoshi Fujii. Thermo-mechanical modeling and analysis of friction spot joining of Al alloy and carbon fiber-reinforced polymer. Journal of Materials Research and Technology 12 (2021): 1777-1793. [13] Lin Qi, Qingxin Zhang, Yunwu Ma, Ye Xu, Xiaohui Han, and Yongbing Li*. A comparative study on mechanical performance of traditional and magnetically assisted resistance spot welds of A7N01 aluminum alloy. Journal of Manufacturing Processes 66 (2021): 133-144. 【2020年度】 [1] Yunwu Ma, Bingxin Yang, Ming Lou, Yongbing Li*, and 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, 278 (2020): 116543. [2] Yunwu Ma, Sizhe Niu, He Shan, Yongbing Li*, and Ninshu Ma, Impact of stack orientation on self-piercing riveted and friction self-piercing riveted aluminum alloy and magnesium alloy joints. Automotive Innovation, 3, no.3 (2020): 242-249. [3] Sendong Ren, Yunwu Ma*, Shuhei Saeki, Yoshiaki Iwamoto and Ninshu Ma, Numerical analysis on coaxial one-side resistance spot welding of Al5052 and CFRP dissimilar materials. Materials & Design, 188 (2020): 108442. [4] Sendong Ren, Yunwu Ma, Shuhei Saeki, Yoshiaki Iwamoto, Chuantong Chen, and Ninshu Ma*, Fracture mechanism and strength evaluation of Al5052/CFRP joint produced by coaxial one-side resistance spot welding, Composite Structures 252 (2020): 112766. [5] Song Wu, Yunwu Ma, Leitao Gao, Yixi Zhao, Sherif Rashed and Ninshu Ma*, A novel multi-step strategy of single point incremental forming for high wall angle shape. Journal of Manufacturing Processes 56 (2020): 697-706. [6] Sizhe Niu, Yunwu Ma, Ming Lou*, Chaoqun Zhang, Yongbing 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): 116830. [7] Shanqing Hu, Amberlee S Haselhuhn, Yunwu Ma, Yongbing Li*, Blair E CarlSon, and Zhongqin Lin, Comparison of the Resistance Spot Weldability of AA5754 and AA6022 Aluminum to Steels. Welding Journal 99, no.8 (2020): 224-238. [8] 李永兵*,马运五,楼铭,张国涛,张庆鑫,祁麟,邓琳. 轻量化薄壁结构点连接技术研究进展. 机械工程学报,2020, 56(6):125-146. [9] 麻寧緒*, 馬運五, Peihao Geng. 固相接合プロセスにおける熱・力学現象のシミュレーション. 素形材, 2020, 61(9): 31-38. 【2019年度】 [1] Yunwu Ma, Yong Bing Li*, and Zhong Qin Lin, Joint formation and mechanical performance of friction self-piercing riveted aluminum alloy AA7075-T6 Joints. Transactions of the ASME: Journal of Manufacturing Science and Engineering, 141 , no.4 (2019): 041005. [2] Xirui Xian, Yunwu Ma, He Shan, Sizhe Niu, and Yongbing Li*, Single-sided joining of aluminum alloys using friction self-piercing riveting (F-SPR) process. Journal of Manufacturing Processes 38 (2019): 319-327. [3] 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. 上海交通大学学报,2019, 53(05): 616-623. 【2018年度】 [1] Yunwu Ma, Ming Lou, Yongbing Li*, and Zhongqin Lin. Effect of rivet and die on self-piercing rivetability of AA6061-T6 and mild steel CR4 of different gauges. Journal of Materials Processing Technology, 251 (2018): 282-294. [2] Yunwu Ma, Yongbing Li*, Blair E. Carlson and Zhongqin Lin, Effect of process parameters on joint formation and mechanical performance in friction stir blind riveting of aluminum alloys. Transactions of the ASME: Journal of Manufacturing Science and Engineering, 140, no.6 (2018): 061007. [3] Yunwu Ma, Guanzhong He, Ming Lou, Yongbing Li* and Zhongqin Lin, Effects of process parameters on crack inhibition and mechanical interlocking in friction self-piercing riveting of aluminum alloy and magnesium alloy, Transactions of the ASME: Journal of Manufacturing Science and Engineering. 140, no.10 (2018): 101015. [4] Yunwu Ma, Ming Lou, Yongbing Li*, and Zhongqin Lin, Modeling and experimental validation of friction self-piercing riveted aluminum alloy to magnesium alloy. Welding in the World, 62, no.6 (2018): 1195-1206. [5] 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): 864-869. 【2017年度】 [1] Yunwu Ma, Xirui Xian, Ming Lou, Yongbing Li, and Zhongqin Lin, Friction self-piercing riveting (F-SPR) of dissimilar materials. Procedia Engineering 207, (2017): 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, 8:11-19. 【2016年度】 [1] 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, 138, no.6 (2016): 061007. [2] Xun Liu*, Yong Chae Lim, Yongbing Li, Wei Tang, Yunwu Ma, Zhili Feng, Jun Ni, Effects of process parameters on friction self-piercing riveting of dissimilar materials, Journal of Materials Processing Technology 237 (2016): 19-30. [3] 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. 【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, 137, no.5: (2015): 054501.

学术兼职

2021-至今:ASME Manufacturing Science and Engineering Conference, Symposium on Novel Joining Technologies for Dissimilar Materials,联合召集人/主席 2023-至今:中国机械工程学会焊接分会青年工作组,常委 2022-至今:《Automotive Innovation》学术编辑 2023-至今:《电焊机》编委 2022:《Crystals》特刊客座编辑

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