2015—2019  山东大学，材料科学与工程，博士

2013—2015  山东大学，材料加工，硕士

2009—2013   青岛科技大学，材料成型及控制工程，学士

2025—至 今  350vip8888新葡的京集团，副教授

2024—2025  宾州州立大学，工业与制造工程系，助理科研教授

2020—2024  大阪大学，接合科学研究所，助理教授/特任副教授

2019—2020  山东大学，现代焊接技术研究所，博士后

1. 异材复合结构线性/搅拌摩擦焊接

2. 异质金属/复材叠层薄板构件柔性成形

3. 极端环境服役用金属薄板构件多工艺融合制造

欢迎机械工程、材料加工、力学、多尺度计算等相关背景的硕、博及博士后联系！

（2026级博士无名额，硕士2名额，欢迎联系报考！）

2022—2026： 中国机械工程学会焊接分会第十一届委员会压力焊专业委员

2022：《Symmetry》与《Metals》特刊客座编辑

2026-2029 “智能制造系统和机器人”国家科技重大专项，在研，课题负责人

2026-2029 国家自然科学基金-面上项目，在研，负责人

2025-2027 国家级青年人才项目，在研，负责人

2021-2023 国家自然科学基金-青年基金，结题，负责人

2021-2023 山东省自然科学基金-青年基金，结题，负责人

2023-2025 教育部-“春晖计划”国际合作项目，结题，海外负责人

2022-2024 日本学术振兴会-青年基金，结题，负责人

2022-2024 日本天田财团-青年基金，结题，负责人

2022-2024 日本新能源产热技术综合开发机构-青年研究者发掘支援项目，结题，任务负责人

参与项目

2021-2024 国家自然科学基金-面上项目，铝/钢异种金属惯性摩擦焊接过程中IMCs生成机理与调控，结题，主要参与人

2017-2019 “高档数控机床与基础制造装备”科技重大专项项目子课题，惯性摩擦焊接头组织演变数值模拟与实验验证，结题，主要参与人

2015-2018 国家自然科学基金-面上项目，线性摩擦焊接热力耦合作用周期性脉冲效应及其对接头组织性能影响研究，结题，主要参与人

2026年度

[1]. Geng P, Wang H, Qin G, Li J. Strategies for Controlling Metallurgical Transformations and Mechanical Properties in Al/Steel Friction Welding: A Review. Journal of Manufacturing Science and Engineering. 2026 Jan 1;148(1):010801

2025年度

[1].    Geng P, Xia Y, Dong Z, Men B, Pan B, Shao C, Li Y, Li J. Machine Learning Applications in Welding Processes: Progresses and Opportunities. International Journal of Machine Tools and Manufacture. 2025 Nov 3:104344

[2].    Li W, Ma N, Geng P*. Interpretable data-driven modeling of process–microstructure–strength relationship in hot-press joining of aluminum and CFRTP. Composite Structures. 2025 Oct 2:119716

[3].    Wu R, Geng P*, Cao F, Toor ZS, Lee SW, Shen Y, Li S, Kim HS. Multiscale strength-ductility synergy of double-sided underwater friction stir processed duplex stainless steel. International Journal of Mechanical Sciences. 2025 Sep 28:110898

[4].    Wu R, Cao F, Zhang H, Xu L, Park H, Lee SW, Geng P*, Feng X, Ma N, Kim HS. Cooperative and competitive interactions on plastic deformation dynamics in gradient grained dual-phase heterostructures. Scripta Materialia. 2025 Oct 1;267:116821

[5].    Wang S, Xu Y, Wang W, Zhang X, Chen Y, Geng P*, Ma N. Evolution of macro/mesoscopic thermal-mechanical fields in friction lap joining of surface-textured Al alloy to CFRTP. Journal of Manufacturing Processes. 2025 Feb 28;136:356-69

[6].    Ma H, Geng P*, Li Y, Bandaru AK, Ma N, Liu T, Luo R, Qin G. Improving the bonding characteristics of the friction-welded 2A14 Al alloy/steel interface by enabling mutual deformation. Materials Science and Engineering: A. 2025 Feb 1;924:147790

2025年以前

[1].    Li W, Geng P*, Ma N, Fujii H, Ma H. Effect of tool shoulder geometry on lapped Al/CFRTP hybrid joint structure and strength made by pinless friction spot joining. Journal of Materials Research and Technology. 2024 Sep 24

[2].    Zhao P, Hu Y, Geng P*, Shen B, Yuan L, Zou J, Ma N. Effective toughening of dissimilar Ti alloy friction welded joint by combining electropulsing thermal and athermal effects. Materials Science and Engineering: A. 2024 Jun 20:146864

[3].    Ma H, Tang J, Geng P*, Bandaru AK, Qin G, Luo R, Ma N, Yip WS, To S. Effect of grain orientation angles and compressive parameters on the deformation characteristics and corrosion property of 6061 Al alloy. Materials Characterization. 2024 Jul 1;213:114006

[4].    Geng P, Ma H, Zhao P, Ma N, Takuya M, Fujii H. Effect of tool revolutionary pitch on heat transfer and material flow in Al/steel friction stir lap welding. Journal of Materials Processing Technology. 2024 Apr 1;325:118306

[5].    Li W, Geng P*, Ma N, Chen C. Effect of thermal-mechanical conditions on strength of silanized Al alloy/CFRTP hybrid joint made by thinning-controlled hot pressing. Materials Today Communications. 2024 Mar 1;38:108507

[6].    Ma H, Geng P*, Xu T, Bandaru AK, Aravand A, Falzon BG. Analytical fracture toughness model for multiphase epoxy matrices modified by thermoplastic and carbon nanotube/thermoplastic. Composites Part A: Applied Science and Manufacturing. 2024 Feb 1;177:107948

[7].    Li W, Geng P*, Wang Q, Ma N, Zhao S, Chen C. Effect of thermal condition on isothermal-pressing joined strength of silanized Al alloy/carbon fiber-reinforced polyamide-6. Journal of Materials Research and Technology. 2023 May 1;24:8035-52

[8].    Wang S, Wang W, Xu Y, Zhang X, Chen C, Geng P*, Ma N. Effect of nanosecond pulsed laser parameters on texturing formation of metallic surface: Experiment and modelling. Journal of Materials Research and Technology. 2023 Sep 1;26:7775-88

[9].    Geng P, Ma H, Wang M, Qin G, Zhou J, Zhang C, Ma Y, Ma N, Fujii H. Dissimilar linear friction welding of Ni-based superalloys. International Journal of Machine Tools and Manufacture. 2023 Oct 1;191:104062

[10]. Muhammad NA¹, Geng Peihao¹, Wu Chuansong, et al. Unravelling the ultrasonic effect on residual stress and microstructure in dissimilar ultrasonic-assisted friction stir welding of Al/Mg alloys. International Journal of Machine Tools and Manufacture. (2023) Mar 1;186:104004

[11]. 耿培皓，秦国梁，马宏，等.铝/钢异种金属搅拌摩擦搭接传热与材料流动行为［J］.电焊机，2023，53（3）：1-14.

[12]. Geng Peihao, Ma Hong, Li Weihao, et al. Improving bonding strength of Al/CFRTP hybrid joint through modifying friction spot joining tools. Composites Part B: Engineering. (2023) Apr 1;254:110588

[13]. Geng Peihao, Ma Yunwu, Ma Ninshu, et al. 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 (2022) 174:103858

[14]. Geng Peihao, Ma Ninshu, Ma Hong, et al. Flat friction spot joining of aluminum alloy to carbon fiber reinforced polymer sheets: Experiment and simulation. Journal of Materials Science & Technology (2022) 107:266-89

[15]. Geng Peihao, Morimura Masashi, Ma Ninshu, et al. Measurement and simulation of thermal-induced residual stresses within friction stir lapped Al/steel plate. Journal of Materials Processing Technology. (2022) Aug 27:117760

[16]. Geng Peihao, Morimura Masashi, Ma Hong, et al. 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) 26:164381

[17]. Geng Peihao, Morimura Masashi, et al. Prediction of residual stresses within dissimilar Al/steel friction stir lap welds using an Eulerian-based modeling approach. Journal of Manufacturing Processes. 2022 Jul 1;79:340-55

[18]. Ma Hong, Geng Peihao*, Qin Guoliang*, et al. Achieving superior property by forming fine-sized mult-principal element layer at the weld interface of stainless steel and medium entropy alloy. Materials & Design. 2022 Oct 14:111255

[19]. Yunwu Ma, Yohei Abe, Peihao Geng*, Reiki Akita, Ninshu Ma, 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. (2022) Apr 21:117602

[20]. Ma Hong, Zhao Yanhua, Qin Guoliang*, Geng Peihao*. Formation of nanoscale reaction layer with several crystallinities in the friction-welded 6061 Al alloy/steel joint. Materials & Design. 2022 May 11:110742

[21]. Geng Peihao, Qin Guoliang, Ma Hong, et al. Numerical modelling on the plastic flow and interfacial self-cleaning in linear friction welding of superalloys. Journal of Materials Processing Technology (2021) 296:117198

[22]. Ma Ninshu, Geng Peihao*, Ma Yunwu, et al., Thermo-mechanical modeling and analysis of friction spot joining of Al alloy and carbon fiber-reinforced polymer. Journal of Materials Research and Technology. (2021 May) 1;12:1777-93

[23]. Yunwu Ma, Yang Yu, Geng Peihao*, et al. Fracture modeling of resistance spot welded ultra-high-strength steel considering the effect of liquid metal embrittlement crack. Materials & Design (2021): 110075

[24]. Geng Peihao, Qin Guoliang, Zhou Jun, et al. Characterization of microstructures and hot-compressive behavior of GH4169 superalloy by kinetics analysis and simulation. Journal of Materials Processing Technology (2021) 288:11687

[25]. Geng Peihao, Qin Guoliang, Ma Hong, et al. Linear friction welding of dissimilar Ni-based superalloys: microstructure evolution and thermo-mechanical interaction. Journal of Materials Research and Technology (2021) 11:633-49.

[26]. Geng Peihao, Qin Guoliang, Li Changan, et al., Study on the importance of thermo-elastic effects in FE simulations of linear friction welding. Journal of Manufacturing Processes (2020) 56:602-15

[27]. 耿培皓, 秦国梁*. 线性摩擦焊接热力耦合行为及其研究现状. 航空制造技术.; (2021) 64(7):14-27

[28]. Geng Peihao, Qin Guoliang, Zhou Jun, et al., A computational modeling of fully friction contact-interaction in linear friction welding of Ni-based superalloys. Materials & Design (2020) 185:108244

[29]. Geng Peihao, Qin Guoliang, Zhou Jun. Computational investigation of welding heat transfer characteristics and parameters effectiveness in mild steel linear friction welding. Journal of Manufacturing Processes. (2020) 49:234-46

[30]. Geng Peihao, Qin Guoliang, Zhou Jun, et al., Finite element models of friction behaviour in linear friction welding of a Ni-based superalloy. International Journal of Mechanical Sciences (2019) 152:420-31

[31]. Geng Peihao, Qin Guoliang, Chen Liang, et al., Simulation of plastic flow driven by periodically alternating pressure and related deformation mechanism in linear friction welding. Materials & Design 2019 15;178:107863

[32]. Geng Peihao, Qin Guoliang, Zhou Jun. Numerical and experimental investigation on friction welding of austenite stainless steel and middle carbon steel. Journal of Manufacturing Processes (2019) 47:83-97

[33]. Geng Peihao, Qin Guoliang, Li Tong, et al. Microstructural characterization and mechanical property of GH4169 superalloy joints obtained by linear friction welding. Journal of Manufacturing Processes (2019) 45:100-14

[34]. Geng Peihao, Qin Guoliang, Zhou Jun, et al., Parametric optimization and microstructural characterization of friction welded aeronautic aluminum alloy 2024. Transactions of Nonferrous Metals Society of China (2019) 29(12):2483-95

[35]. Geng Peihao, Qin Guoliang, Zhou Jun, et al., Nonuniformity in mechanical properties of linear friction welded mild steel joint. Journal of Materials Engineering and Performance. (2019) 28(3):1848-62

[36]. Geng Peihao, Qin Guoliang, Zhou Jun, et al., Hot deformation behavior and constitutive model of GH4169 superalloy for linear friction welding process. Journal of Manufacturing Processes (2018) 32:469-81

[37]. 耿培皓, 秦国梁*. 惯性摩擦焊接技术及其在航空工业领域的应用. 精密成形工程. 2017;9(5):73-82

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