闵峻英教师主页

个人简介 Personal Profile 同济大学长聘教授、博士生导师，现任同济大学机械与能源工程学院副院长、中德机械工程中心副主任。2017年入选国家级海外高层次青年人才引进计划。获评中国机械工程学会上银优秀机械博士论文、上海市优秀博士学位论文；德国洪堡学者、美国密歇根大学和夏威夷大学博士后、美国通用汽车全球研发中心访问科学家；中国汽车轻量化技术创新战略联盟专家、中国模具工业协会汽车模具及装备委员会副主任、多个国内外期刊客座主编/编委、十多本SCI期刊审稿人。主持国家重点研发计划项目（项目首席科学家）、国家自然科学基金项目、国际合作项目、校企合作项目等40多项，至今在IJP、JMPT、IJMS等国际期刊上发表论文140多篇；授权发明专利10多件；在国内外重要学术会议上作报告50多次。 研究方向Research Directions 新能源汽车轻量化技术,氢燃料电池双极板精密成形技术,工业机器人智能成形制造工艺与装备,异质构件与界面科学,智能材料与智能结构 2. 机电结构优化与控制 研究内容：在对机电结构进行分析和优化的基础上，运用控制理论进行结构参数的调整，使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计 研究内容：以仿生结构为研究对象，运用连续体结构拓扑优化设计理论和方法，对多相仿生结构(机构)材料进行2. 机电结构优化与控制 研究内容：在对机电结构进行分析和优化的基础上，运用控制理论进行结构参数的调整，使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计 研究内容：以仿生结构为研究对象，运用连续体结构拓扑优化设计理论和方法，对多相仿生结构(机构)材料进行整体布局设计。 整体布局设计。 团队展示 汽车轻量化研究团队由林建平教授和闵峻英教授领衔，在轻量化成形制造等领域具有重要国际影响力，承担国家自然科学基金、国家重点研发计划、国际合作以及企业合作项目等150多项。团队导师经10多年探索形成了学风严谨、制度明确、文化丰富的良好导学氛围，以学术造诣和人格魅力指引110多名毕业学生把“论文”写满祖国大地。团队获国家教学成果一等奖和二等奖、上海市教学成果特等奖、机械工业部科技进步奖、上海市科技进步奖等，获省部级优秀博士学位论文2人次。拥有国家级青年人才1名，上海市领军人才（海外）2名，德国洪堡学者2名，同济大学青年百人计划2名，1名博士后（上海市超博），以及三十多名博士/硕士研究生。 报考意向 招生信息 机械与能源工程学院 硕士研究生 序号 专业 招生人数 年份 1 机械工程 3 2024 2 机械制造及其自动化 1 2024 3 机械制造及其自动化 1 2024 博士研究生 序号 专业 招生人数 年份 1 机械工程（博士） 2 2024 2 机械（博士） 1 2024 博士1： 机械制造及其自动化（制造系统及其智能化技术、精密/超精密加工工艺与装备、精密测量与精度控制、轻量化高博士2： 机械工程（机械制造及其自动化） 报考意向 姓名: 手机号码： 邮箱： 毕业院校： 所学专业： 报考类型： 博士 硕士 个人简历*： 上传附件 支持扩展名：.rar .zip .doc .docx .pdf .jpg .png .jpeg 成绩单*： 上传附件 支持扩展名：.rar .zip .doc .docx .pdf .jpg .png .jpeg 其他材料： 上传附件 支持扩展名：.rar .zip .doc .docx .pdf .jpg .png .jpeg 备注： 提交 所获荣誉 [1]  2017-05-01曾获荣誉当选：入选国家级海外高层次人才引进计划[2]  2014-04-01曾获荣誉当选：德国洪堡基金会研究奖学金[3]  2023-05-01曾获荣誉当选：国家级教学成果奖二等奖[4]  2023-05-01曾获荣誉当选：同济大学青年五四奖章[5]  2022-05-01曾获荣誉当选：上海市教学成果奖特等奖[6]  2022-05-01曾获荣誉当选：上海市教学成果奖二等奖[7]  2022-09-01曾获荣誉当选：同济大学优秀毕业设计指导老师[8]  2021-04-25曾获荣誉当选：市教卫工作党委系统优秀共产党员[9]  2021-06-29曾获荣誉当选：同济大学优秀共产党员•师德标兵[10]  2021-12-01曾获荣誉当选：同济大学教学成果一等奖[11]  2021-12-01曾获荣誉当选：山东大学教学成果一等奖[12]  2021-09-01曾获荣誉当选：同济大学优秀毕业设计指导老师[13]  2020-12-01曾获荣誉当选：同济大学卓越研究生导学团队标兵（团队主导师之一）[14]  2020-10-01曾获荣誉当选：同济大学优秀班主任[15]  2018-09-01曾获荣誉当选：同济大学优秀毕业设计指导老师[16]  2015-12-01曾获荣誉当选：上海市研究生优秀成果（优秀博士学位论文）[17]  2014-12-01曾获荣誉当选：上银优秀机械博士论文奖 科研项目 [1]     高精度高耐蚀大幅面钛双极板关键制造技术研究, 国家重点研发计划项目，2022.11-2025.10[2]    FEA-Based Forming Technology Development for EV，美国通用汽车全球研发中心资助项目（国际合作），2023-2024[3]     铝合金热辅助搅拌摩擦单面铆接过程的演化机理，国家自然科学基金项目，2019-2021[4]     新型不锈钢热塑性变形机理及新型复合石墨基材设计开发，国家重点研发计划（二级课题），2020.11-2023.10[5]     新型超薄不锈钢热成形工艺及成形性能. 国家重点研发计划（二级课题），2020.11-2023.10[6]   高性能汽车用钢的成形特性评价，国家重点研发计划（二级课题）, 2017.07-2021.06，（主要参与者）[7]     超高强度钢激光辅助机器人精密滚压成形成性研究，上海市科委国际合作项目（中芬），2021.06-2024.05[8]     Laser-assisted robotic roller forming of ultrahighstrength steels，美国通用汽车全球研发中心资助项目（国际合作），2021-2023[9]     Investigation of ConstitutiveBehavior Under Controlled Bi-axial Loading Conditions（基于双向加载的材料本构行为研究），美国通用汽车全球研发中心资助项目（国际合作），2018-2021[10]  Validation of Constitutive Theories（本构理论验证），美国通用汽车全球研发中心资助项目（国际合作），2016-2018[11]  十三批国家“人才计划”青年项目. 中组织. 2017-2022[12]  同济大学人才启动经费. 2017-2022[13]  青年人才嘉定区配套创新创业资助——高性能超高强汽车用钢. 上海市嘉定区. 50万元[14]  铝合金板搅拌摩擦单面铆接机理研究. 机械系统与振动国家重点实验室开放课题(MSV201814). 2018.01-2019.12.[15]  形状记忆合金的传感特性及其调控机制研究. 同济大学“双带头人”教师党支部书记学术能力提升计划. 2021-2023[16]   SV73复合材料车顶连接试验. 上海汽车集团股份有限公司. 2018.01-2020.01[17]   汽车用高强7xxx系铝合金板热辅助成形工艺研究. 山东南山铝业股份有限公司. 2018.01-2020.07[18]   7075-F高强度铝合金铝板热辅助成形工艺实验. 泛亚汽车技术中心有限公司. 2019.02-2020.02[19]  搅拌摩擦铆接实验. 本特勒投资（中国）有限公司.2019.10-2020.10[20]   氢能及燃料电池产业链用材趋势及含铌材料应用潜力调研. 中信金属宁波能源有限公司. 2020.04-2020.11[21]   下一代热冲压钢的表征研究（Characterizationof next Gen PHS）. 通用汽车（中国）投资有限公司. 2020.04-2020.10[22]   电堆密封材料非线性力学参数测试. 上海捷氢科技有限公司. 2020.07-2020.12[23]   复杂应力状态下汽车钢板成形极限及其预测模型研究. 宝山钢铁股份有限公司. 2020-2021.11[24]  新能源汽车技术（轻量化）创新拉力赛之赛事奖金协议. 淄博国创中心先进车用材料技术创新中心 2020.12-2021.10[25]   7075高强度铝合金热辅助成形工艺实验. 泛亚汽车技术中心有限公司. 2020.11-2020.12[26]   下一代热冲压钢研究（Next GenerationPress Hardening Steels）通用汽车（中国）投资有限公司. 2020.11-2021.12[27]   GISSMO材料卡片数据获取实验. 泛亚汽车技术中心有限公司. 2020.11-2020.12[28]   高强钢拉伸-压缩循环加载测试. 首钢集团有限公司. 2021.01-2021.06[29]   激光拼焊板氢脆性能测试(2). 上海航发科技应用有限公司. 2021.09-2021.10[30]   涂层粘接力性能测试. 本钢板材股份有限公司. 2021.08-2021.12[31]   汽车用980高强钢激光焊接头的氢脆断裂行为研究. 上海宝钢阿赛洛激光拼焊有限公司.2021.09-2021.10[32]   新镀层热成形及相关激光拼焊技术研究. 泛亚汽车技术中心有限公司. 2021.08-2021.09[33]   激光拼焊板氢脆性能测试. 昆山宝锦激光拼焊有限公司. 2021.09-2021.10[34]   拉压循环加载路径下的铝板本构研究. 诺贝丽斯.[35]  汽车用典型涂层金属板胶粘界面行为研究. 宝山钢铁股份有限公司. 2021.12-2023.09[36]  不锈钢双极板多步成形工艺开发. 无锡微研股份有限公司. 2022.01-2022.12[37]  激光辅助成形技术工艺参数研究. 宝山钢铁股份有限公司. 2022.06-2023.08[38]  基于DIC的在线应变测量（On-line strain measurement based on DIC）. 通用汽车（中国）投资有限公司. 2022.03-2023.02 论文发表 [1]    Li S, Wan H,Lin* J, Min J*. Physicochemical interactions between amorphous metaloxide and polymer in metal–polymer hybrid materials. Materials & Design (2023)111993.[2]    Wan H, Teng H,Lv F, Lin J, Min J*. Interface Wetting Driven by Laplace Pressure onMultiscale Topographies and Its Application to Performance Enhancement of Metal-CompositeHybrid Structure. ACS Applied Materials and Interfaces. https://doi.org/10.1021/acsami.2c22358[3]    Wan H, Li S, LiJ, Liu T*, Lin J, Min J*. Wettabilitytransition of metallic surfaces from laser-generated superhydrophilicity towater-induced superhydrophobicity via a facile and eco-friendly strategy. Materials &Design. 2023, 226, 111691.[4]    Chen B, JiangX, Min J*, Sun C, Liu Y, Yang S, Lin J. Effect of surface topography onmechanical properties of steel‑polycarbonate joints bylaser direct joining. Welding in the World. 66(2022)1811-1823.[5]    Liao P, Wan H,Min J*, Zhang K, Lin J. Experimental Study on Heat-Affected Zones ofAluminum Alloys in Flow Drill Riveting. Journal of Materials Research and Technology.2022, 18, 1230-1244[6]    Zhang K, MinJ*, Wan H, Liao P, Lin J. Thermo-mechanical modeling of flow drilling witha conical-tipped blind rivet. CIRP Journal of Manufacturing Science and Technology,2022, 36, 158-171.[7]    Wan H, MinJ*, Lin J. Experimental and theoretical studies on laser treatmentstrategies for improving shear bonding strength of structural adhesive jointswith cast aluminum. Composite Structures, 2022, 279, 114831[8]    Lin J, Lin Y, MinJ*, Teng H. Analytical modeling for the axial compression performance ofsteel-fiber-reinforced polymer hybrid laminates. Proceedings of the Institution ofMechanical Engineers, Part C: Journal of Mechanical Engineering Science.236(2022)440-455[9]    Lin J, Qi C,Wan H, Min J*, Chen J, Zhang K, Zhang L. Prediction of cross-tensionstrength of self-piercing riveted joints using finite element simulation andXGBoost algorithm. Chinese Journal of Mechanical Engineering.2021, 34, 36[10]  Wan H, MinJ*, Carlson BE, Lin J, Sun C. Spindle-Shaped Surface MicrostructureInspired by Directional Water Collection Biosystems to Enhance InterfacialWetting and Bonding Strength. ACS Applied Materials and Interfaces 2021,13(11), 13760–13770.[11]  Wan H Min J*,Lin J, Carlson BE, Maddela S, Sun C. Effect of laser spot overlap ratio onsurface characteristics and adhesive bonding strength of an Al alloy processedby nanosecond pulsed laser. Journal of Manufacturing Processes. 62(2021)555-565[12]  Lin J, ZhangJ, Min J*, Sun C, Yang S*. Laser-assisted conduction joining of carbonfiber reinforced sheet molding compound to dual-phase steel by a polycarbonateinterlayer. Opticsand Laser Technology 133(2021)106561[13]  Lin J, Sun C, MinJ*, Wan H, Wang S. Effect ofatmospheric pressure plasma treatment on surface physicochemical properties ofcarbon fiber reinforced polymer and its interfacial bonding strength withadhesive. CompositePart B. 199(2020)108237[14]  Min J, Wan H, Carlson BE, Lin J, Sun C. Application oflaser ablation in adhesive bonding of metallic materials: A review. Optics and LaserTechnology. 128 (2020) 106188.[15]  Wan H, MinJ*, Zhang J, Lin J, Sun C. Effect of adherend deflection on lap-sheartensile strength of laser-treated adhesive-bonded joints. International Journal of Adhesion andAdhesives. 97(2020)102481[16]  Ni J, Min J*,Wan H, Lin J, Shuang Wang, Qingmian Wan. Effect of adhesive type onmechanical properties of galvanized steel/SMC adhesive-bonded joints. InternationalJournal of Adhesion and Adhesives. 97(2020)102482[17]  Wang S, MinJ*, Lin J*, Wan H, Wang Y. Flow drill riveting of carbon fiber-reinforcedpolymer and aluminum alloy sheets. Welding in the World, 2019, 63(4), 1013-1024.[18]  Zhu C, Wan H, MinJ*, Mei Y, Lin J, Carlson BE, Maddela S. Application of pulsed Yb: Fiberlaser to surface treatment of Al alloys for improved adhesive bondedperformance. Opticsand Lasers in Engineering, 2019, 119, 65-76[19]  Sun C, MinJ*, Lin J, Wan H. Effect of Atmospheric Pressure Plasma Treatment onAdhesive Bonding of Carbon Fiber Reinforced Polymer. Polymers, 2019, 11 (1), 139.[20]  Wang S, MinJ*, Lin J, Wu Y. Effect of neutral salt spray (NSS) exposure on thelap-shear strength of adhesive-bonded 5052 aluminum alloy (AA5052) joints. Journal ofAdhesion Science and Technology, 2019, 33(5), 549-560.[21]  Wan H, Lin J*, MinJ*. Effect of laser ablationtreatment on corrosion resistance of adhesive-bonded Al alloy joints. Surface andCoatings Technology, 2018, 345: 13-21.[22]  Sun C, MinJ*, Lin J*, Wan H, Yang S*, Wang S. The Effect of Laser Ablation Treatmenton the Chemistry, Morphology and Bonding Strength of CFRP Joints. InternationalJournal of Adhesion and Adhesives, 2018, 84: 325-334.[23]  Min J, Li J, Li Y, Carlson BE, Lin J. Affected Zones inan Aluminum Alloy Frictionally Penetrated by a Blind Rivet. ASME Journal ofManufacturing Science and Engineering, 2016, 138: 054501-054501-6.[24]  Min J, Li YQ, Carlson BE, Hu SJ, Li J, Lin J. A newsingle-sided blind riveting method for joining of dissimilar materials. CIRP Annals -Manufacturing Technology, 2015, 64: 13-16.[25]  Min J, Li J, Carlson BE, Li Y, Quinn JF, Lin JP, Wang WM.Friction Stir Blind Riveting for Joining Dissimilar Cast Mg AM60 and Al AlloySheets. ASMEJournal of Manufacturing Science and Engineering, 2015, 137:051022-051022-9. [26]  Min J, Li Y, Li J, Carlson BE, Lin J. Mechanics inFrictional Penetration with a Blind Rivet. Journal of Materials Processing Technology,2015, 222: 268-279. [27]  Min J, Li J, Li Y, Carlson BE, Lin J, Wang W. Frictionstir blind riveting for aluminum alloy sheets. Journal of Materials Processing Technology,2015, 215: 20-29. [28]  Min J, Li Y, Li J, Carlson BE, Lin J. Friction stir blindriveting of carbon fiber-reinforced polymer composite and aluminum alloysheets. InternationalJournal of Advanced Manufacturing Technology, 2015, 76: 1403-1410.[29]  S Li, Y Zhao,H Wan*, J Lin*, J Min. Molecular Understanding of the InterfacialInteraction and Corrosion Resistance between Epoxy Adhesive and Metallic Oxideson Galvanized Steel. Materials 16(2023)3061[30]  Lin J, Hua D,Wang P, Lu Z, Min J. Effect of thermal exposure on the strength ofadhesive-bonded low carbon steel. International Journal of Adhesion and Adhesives,2013, 43: 70-80. [31]  Xin L, Min J, Lin J, Feng Q.Investigation on the Failure Mechanism of DP590-22MnB5(quenched) andDP590-DP590 Spot-welding Joints. Journal of Iron and SteelResearch, International, 2011, 18: 936-940. [32]  Wang X, LinJ*, Min J, Wang PC, Sun C. Effect of atmospheric pressure plasmatreatment on strength of adhesive-bonded aluminum AA5052. The Journal of Adhesion, 2018,94(9), 701-722.[33]  Junying Min,Qingbao Yang, Kai Zhang, Shuang Wang, Jianping Lin. Numerical simulation of the frictional penetrationprocess in friction stir blind riveting. Proceedings of NUMIFORM 2019.[34]  Wang S, MinJ*, Lin J, Sun C, Yang S. Effect of Atmospheric Pressure Plasma Treatmenton the Lap-Shear Strength of Adhesive-Bonded Sheet Molding Compound Joints. AutomotiveInnovation, 2018, 1(3): 237-246[35]  Min J, Li J, Carlson BE, Li Y, Lin J. Mechanical propertyof Al alloy joints by friction stir blind riveting. Procedia Engineering, 2014, 81:2036-2041.[36]  闵峻英*，张凯，王爽，林建平. 铆钉结构对铝合金板搅拌摩擦单面铆接穿透力的影响研究. 机械工程学报, 2020, 56(6), 159-168[37]  张凯，闵峻英*，林建平，王云庆，朱峰，吴泳荣. CFRP与AA6022-T4铝合金的自冲铆接接头力学性能分析. 锻压技术, 2019, 44(1), 150-156.[38]  龚厚博，万海浪，林建平*，闵峻英. 面向超薄不锈钢双极板胶粘的等离子表面处理工艺研究. 汽车工艺与材料. 2022, 11, 1-7. (中国汽车工程学会年会优秀论文)[39]  Liu Y, Wang J,Cai W, Carlson BE, Lian J, Min J*. A thermo-metallurgical-mechanicalmodel for microstructure evolution in laser-assisted robotic roller forming ofultrahigh strength martensitic steel. Journal of Materials Research and Technology.(2023) https://doi.org/10.1016/j.jmrt.2023.05.228[40]  Guo N, Zhang X,Hou Z, Wang W, Yang D, Min J*, Ming P, Zhang C. Hot stamping ofultra-thin stainless steel sheets for bipolar plates. Journal of Materials Processing Technology 317(2023)117987[41]  Min J, Wang J, Lian J, Liu Y*, Hou Z. Laser-AssistedRobotic Roller Forming of Ultrahigh-Strength Steel QP1180 with High Precision. Materials16 (2023) 1026.[42]  Liu Y, MinJ*, Zhang J, Cai W, Carlson BE, Bobel AC, Hector Jr. LG, Sachdev AK. Laser-assistedrobotic roller forming of an ultrahigh strength martensitic steel. Journal ofManufacturing Processes. 82 (2022) 192–202.[43]  Min J*, Hu J, Sun C, Wan H, Liao P, Teng H, Lin J. Fabricationprocesses of metal-fiber reinforced polymer hybrid components: a review. AdvancedComposites and Hybrid Materials. 2022, 5, 651–678[44]  Min J, Xie F, Liu Y, Hou Z*, Lu J, Lin J. Experimentalstudy on cold forming process of 7075 aluminum alloy in W temper. CIRP Journal ofManufacturing Science and Technology. 2022, 37, 11-18.[45]  Lin J, Li Y, XieY, Hu J, Min J*. Jointstiffness identification of industrial serial robots using 3D digital imagecorrelation techniques. Proceedings of the Institution of Mechanical Engineers,Part C: Journal of Mechanical Engineering Science. 236(2022)536-551[46]  Hou Z, MinJ*, Wang J*, Lu Q*, He Z, Chai Z, Xu W. Effect of Rapid Heating onMicrostructure and Tensile Properties of a Novel Coating-FreeOxidation-Resistant Press-Hardening Steel. JOM, (2021)1-9[47]  Sun C, Gergely R,Okonski DA, Min J*. Experimentaland numerical investigations on thermoforming of thermoplastic prepregs ofglass fiber reinforced nylon 6. Journal of Materials Processing Technology. 295(2021)117161[48]  Lin Y, MinJ*, Li Y, Lin J*. A thin-walled structure with tailored properties foraxial crushing. InternationalJournal of Mechanical Sciences. 2019, 157: 119-135.[49]  Min J*, Kuhlenkötter B, Shu C, Störkle D, Thyssen L.Experimental and numerical investigation on incremental sheet forming withflexible die-support from metallic foam. Journal of Manufacturing Processes, 2018, 31:605-612[50]  Min J*, Seim P, Störkle D, Thyssen L, Kuhlenkötter B.Thermal modeling in electricity assisted incremental sheet forming. InternationalJournal of Material Forming, 2017, 10: 729-739.[51]  Min J*, Hector LGJr, Zhang L, Lin J, Carsley JE, Sun L.Elevated-temperature mechanical stability and transformation behavior ofretained austenite in a quenching and partitioning steel. Materials Science and Engineering: A,2016, 673: 423-429.[52]  Min J, Lin J, Li J. Forming limits of Mg alloy ZEK100sheet in preform annealing process. Materials and Design, 2014, 53: 947-953.[53]  Min J, Lin J, Min Y. Effect of thermo-mechanical processon the microstructure and secondary-deformation behavior of 22MnB5 steels. Journal ofMaterials Processing Technology, 2013, 213: 818-825. [54]  Min J, Lin J, Min Y, Li F. On the ferrite and bainitetransformation in isothermally deformed 22MnB5 steels. Materials Science and Engineering A,2012, 550: 375-387.[55]  Min J, Lin J, Xin L, Li J, Ding L. Effect ofPre-Deformation at Elevated Temperatures on the Microstructure and Hardness ofBoron Steel 22MnB5. Journal of Iron and Steel Research, International,2011, 18: 600-604. [56]  Min J, Lin J, Li J. Effect of deformation temperature onthe microstructure of boron steel 22MnB5. Advanced Science Letters, 2011, 4: 938-942.[57]  Liu Y, Lin J*,Min J, Ma Z, Wu B. Effect of Deep Cryogenic Treatment on MechanicalProperties and Microstructure of the Tool Steel CR7V for Hot Stamping. Journal ofMaterials Engineering and Performance, 2018, 27(9): 4382-4391.[58]  Guo N, ZhangX, Hou Z, Yang D, Ming P, Min J*. Hot stamping of ultra-thin stainless steelfor microchannels. Materials Research Proceedings 28 (2023)937-942. Material Forming - ESAFORM 2023[59]  Li Y, Lin J*,Xiao Y, Min J. Effects of cold-drawing and low-temperature annealing on thesensing properties of NiTi alloys. Materials Research Proceedings 28 (2023) 429-436.Material Forming - ESAFORM 2023[60]  侯泽然，王建锋，卢琦，闵峻英*，何志康，张显，汪锦成，林建平. 超高强度钢的短流程热成形工艺及其微观组织演化. 机械工程学报, 2022, 58(16), 43-50.[61]  Hou Z, MinJ*, Wang J, Lu Q, Zhang X, Lin J. Research on short process hot formingtechnology of a medium manganese steel. IOP Conference Series: Materials Science and Engineering.2022, 1270, 012112[62]  Wang W, Xiao Y,Guo N, Min J*. Finite elementanalysis of bipolar plate stamping based on a Yld2000 yield model. Computer Methodsin Materials Science. 2022, 22 (1), 8[63]  Tekkaya AE*, Min J*. Special Issue on Automotive Lightweight. AutomotiveInnovation. 2020, 3: 193-194.[64]  Min J, Seim P, Störkle D, Thyssen L, Kuhlenkötter B.Electrically-Assisted Incremental Sheet Forming of Advanced High StrengthSteels. ProcediaManufacturing, 2016, 7: 22-26.[65]  Lin J, Li F, Min J. Recent Developments and Challenges in HotStamping of Boron Steel. Advanced High Strength Steel and Press Hardening:Proceedings of the 2nd International Conference, 2016, 3-7.[66]  Min Y, Zhao J,Lin J, Min J. Hot Deformation Induced Phase Transformation of 22MnB5Steel and Its Influence on Microstructure and Property. Journal of Tongji University (NaturalScience Edition), 2016, 44: 113-118.闵永安，赵洁璠，林建平，闵峻英. 22MnB5 钢热变形诱发相变及其对组织性能的影响. 同济大学学报:自然科学版, 2016, 44 (1), 113-118.[67]  闵峻英，林建平. 金属板材热辅助塑性成形理论研究. 机械工程学报, 2015, 51 (9), 118-118[68]  刘雨阳，闵峻英，辛立久，金建伟，刘强，林建平. 热冲压成形工艺参数对硼钢板帽形件回弹影响分析. 锻压技术, 2014, 39 (3), 34-37.[69]  Min J, Lin J, Xin L. Non-isothermal Deformation and PhaseTransformation of 22MnB5 Steel at Elevated Temperatures. Steel Research International,2012, 1167-1170. (EI, 非SCI)[70]  Min J, Carter JT, Verma R. Tensile Properties of ThreePreform-Annealed Magnesium Alloy Sheets. Magnesium Technology 2012. Orlando, FL: TheMinerals, Metals & Materials Society, 2012, 443-448.[71]  Min J, Cao Y, Carter JT, Verma R. Comparison of TensileProperties and Crystallographic Texture of Three Magnesium Alloy Sheets. MagnesiumTechnology 2012. Orlando, FL, USA: The Minerals, Metals &Materials Society, 2012, 355-360.[72]  Mace F, Lin J, Min J.Thermo-Mechanical Analysis of a Cooling System for Hot Stamping Tools. Advanced Materials Research, 2012, 538-541: 2053-2060.[73]  Min J, Lin J. Investigation on dynamic recovery of boronsteel 22MnB5 under austenite state at elevated temperatures. SAEInternational Journal of Materials and Manufacturing, 2011, 4:1147-1154.[74]  Min J, Lin J, Xin L, Li J. Indirect Hot Stamping of BoronSteel 22MnB5 for an upper B-pillar. Advanced Materials Research, 2011, 314-316:703-708.[75]  林建平，孔庆华，徐洲，闵峻英. 22MnB5 钢板不等温拉深成形的影响因素研究. 同济大学学报:自然科学版, 2011, 39 (4), 567-571[76]  Lin J, Min J, Xu Z. Tool design and process testsof hot stamping for advanced high strength steels. 2010International Workshop on Mechanic Automation and Control Engineering,2010, 5362-5365.[77]  Min J, Lin J, Sun G, Bao W. Investigation on InfluenceFactors of Bulging of Boren Steel at Elevated Temperature. Materials Science Forum, 2009,628: 563-568.[78]  Hou Z, Song W, YiH*, Wang J*, Min J*. Fracture Strain of Al–Si-Coated Press-HardenedSteels under Plane-Strain Bending. Materials. 2022, 15(20):7345.[79]  Hou Y, Du K,Abd El-Aty A, Lee MG*, Min J*. Plasticanisotropy of sheet metals under plane strain loading: A novel non-associatedconstitutive model based on fourth-order polynomial functions. Materials &Design 223(2022)111187[80]  Hou Y, MinJ*, Lin J, Lee MG. Modeling stress anisotropy, strength differential, andanisotropic hardening by coupling quadratic and stress-invariant-based yieldfunctions under non-associated flow rule. Mechanics of Materials. 174(2022)104458[81]  Liu Z, Hou Y,He R, Ye Y, Niu C, Min J*. Machine learning for extending capability ofmechanical characterization to improve springback prediction of a quenching andpartitioning steel. Journal of Materials Processing Technology. 308(2022) 117737[82]  Hou Y, Lee MG,Lin J, Min J*. Experimental characterization and modeling of complexanisotropic hardening in quenching and partitioning (Q&P) steel subject tobiaxial non-proportional loadings. International Journal of Plasticity. 156(2022)103347[83]  Min J, Kong J, HouY*, Liu Z, Lin J. Application of Laser Deposition to MechanicalCharacterization of Advanced High Strength Steels Subject to Non-ProportionalLoading. ExperimentalMechanics. 62(2022)685-700[84]  Min J*, Guo N, HouY, Jiang K, Chen X, Carsley JE, Lin J. Effect of tension-compression testingstrategy on kinematic model calibration and springback simulation of advancedhigh strength steels. International Journal of Material Forming 2021,14(3): 435-448.[85]  Hou Y, MinJ*, Guo N, Shen Y, Lin J. Evolving asymmetric yield surfaces of quenchingand partitioning steels: Characterization and modeling. Journal of Materials Processing Technology.2021,290: 116979[86]  Hou Y, MinJ*, Guo N, Lin J, Carsley JE, Stoughton TB, Traphöner H, Clausmeyer T, TekkayaAE. Investigation of evolving yield surfaces of dual-phase steels. Journal ofMaterials Processing Technology. 2021, 287: 116314.[87]  Hou Y, MinJ*, Stoughton TB, Lin J, Carsley JE, Carlson BE. A non-quadraticpressure-sensitive constitutive model under non-associated flow rule withanisotropic hardening: Modeling and validation. International Journal of Plasticity. 2020, 135: 102808[88]  Lin J, Bao X, HouY, Min J*, Qu X, Tao Z, Chen J. Investigation on Yield Behavior of7075-T6 Aluminum Alloy at Elevated Temperatures. Chinese Journal of Mechanical Engineering.2020,33: 76. [89]  Lin J, Hou Y, MinJ*, Tang H, Carsley JE, Stoughton TB. Effect of constitutive model onspringback prediction of MP980 and AA6022-T4. International Journal of Material Forming, 13(2020)1-13[90]  Yang Q, Min J*, Carsley JE, WenY, Kuhlenkötter B, Stoughton TB, Lin J. Prediction of plane-strain specimengeometry to efficiently obtain a forming limit diagram by Marciniak testing. Journalof Iron and Steel Research International,2018, 25(5): 539-545.[91]  Min J, Stoughton TB, Carsley JE, Carlson BE, Lin J, GaoX. Accurate Characterization of Biaxial Stress-Strain Response of Sheet Metalfrom Bulge Testing. International Journal of Plasticity, 2017, 94:192-213. [92]  Min J, Hector LGJr, Lin J, Carter JT, Sachdev AK. Spatio-temporalcharacteristics of propagative plastic instabilities in a rare earth containingmagnesium alloy. InternationalJournal of Plasticity, 2014, 57: 52-76. [93]  Min J, Stoughton TB, Carsley JE, Lin J. A Method ofDetecting the Onset of Localized Necking Based on Surface GeometryMeasurements. ExperimentalMechanics. 2017, 57: 521-535.[94]  Min J, Stoughton TB, Carsley JE, Lin J. An improvedcurvature method of detecting the onset of localized necking in Marciniak testsand its extension to Nakazima tests. International Journal of Mechanical Sciences, 2017,123: 238–252.[95]  Min J, Carsley JE, Lin J, Wen Y, Kuhlenkötter B. Anon-quadratic constitutive model under non-associated flow rule of sheet metalswith anisotropic hardening: modeling and experimental validation. InternationalJournal of Mechanical Sciences,2016, 119: 343-359. [96]  Min J, Stoughton TB, Carsley JE, Lin J. Compensation forprocess-dependent effects in the determination of localized necking limits. InternationalJournal of Mechanical Sciences, 2016, 117: 115-134.[97]  Min J, Hector LGJr, Zhang L, Sun L, Carsley JE, Lin J.Plastic instability at elevated temperatures in a TRIP-assisted steel. Materials andDesign. 2016, 95: 370-386.[98]  Min J, Lin J, Sun B. Effect of strain rate onspatio-temporal behavior of Portevin-Le Chastener bands in a twinning inducedplasticity steel. Mechanics of Materials, 2014, 68: 164-175. [99]  Min J, Lin J. Anelastic behavior and phenomenologicalmodeling of Mg ZEK100-O alloy sheet under cyclic tensile loading-unloading. MaterialsScience and Engineering A, 2013, 561: 174-182. [100]         Min J, Hector LGJr, Lin J, Carter JT. Analytical Methodfor Forming Limit Diagram Prediction with Application to a Magnesium ZEK100-OAlloy. Journalof Materials Engineering and Performance, 2013, 22: 3324-3336. [101]         Min J, Lin J. Yield Point Elongation and LocalizedDeformation Bands in 22MnB5 Steel at Room Temperature. Steel Research International,2013, 84: 1216-1222. [102]         Min J, Hector L G Jr, Carsley J E, Stoughton T B, CarlsonB E, Lin J P. Spatio-temporal characteristics of plastic instability inAA5182-O during biaxial deformation. Materials and Design, 2015, 83: 786-794. [103]         Min J, Lin J, Cao Y, Bao W, Lu Z. Effect of necking typesof sheet metal on the left-hand side of forming limit diagram. Journal ofMaterials Processing Technology, 2010, 210: 1070-1075. [104]         Min J, Lin J, Li J, Bao W. Investigation on hot forminglimits of high strength steel 22MnB5. Computational Materials Science, 2010, 49:326-332. [105]         Min J, Lin J, Tian H, Sun G, Xu Z. Investigation onuniaxial tensile instability of USIBOR1500 steel sheets at elevatedtemperatures. ChineseJournal of Mechanical Engineering (English Version), 2010, 23:94-99.[106]         Y Hou, JMin, A Abd El-Aty, HN Han, MG Lee. A new anisotropic-asymmetric yieldcriterion covering wider stress states in sheet metal forming. InternationalJournal of Plasticity (2023)103653[107]         Z Zhao, YXiao, J Lin, J Min. The roles of residual martensite and plasticdeformation in thermomechanically coupled functional degradation ofnanocrystalline superelastic NiTi alloys. Journal of Materials Research and Technology24(2023) 6791-6807[108]         Z Zhao, DJiang, Y Xiao, J Lin, J Min. Intrinsic response of nanocrystallinesuperelastic NiTi shape memory alloy. Extreme Mechanics Letters 60(2023)101988. [109]         Y Hou, DMyung, JK Park, J Min, HR Lee, AA El-Aty, MG Lee. A Review ofCharacterization and Modelling Approaches for Sheet Metal Forming ofLightweight Metallic Materials. Materials 16 (2023) 836[110]         Y.F. Yang, Z.R.He, J. Ma*, H. Yang, J.Y. Min, S.L. Zang, H. Li*. Evolving asymmetric and anisotropic hardening ofCP-Ti sheets under monotonic and reverse loading: Characterization and modeling.InternationalJournal of Plasticity. 159(2022)103445[111]         Volk W, GrocheP, Brosius A, Ghiotti A, Kinsey BL, Liewald M, Madej L, Min J,Yanagimoto J. Models and modelling for process limits in metal forming. CIRP Annals -Manufacturing Technology, 2019, 68, 775–798.[112]         Zhang L, MinJ, Carsley JE, Stoughton TB, Lin J. Experimental and theoreticalinvestigation on the role of friction in Nakazima testing. International Journal of MechanicalSciences, 2017, 133: 217–226.[113]         Zhang L, LinJ, Min J, Ye Y, Kang L. Formability Evaluation of Sheet Metals Based onGlobal Strain Distribution. Journal of Materials Engineering and Performance,2016, 25: 2296-2306. [114]         Zhang L, MinJ, Wang B, Lin J, Li F, Liu J. Constitutive model of friction stir weldwith consideration of its inhomogeneous mechanical properties. Chinese Journalof Mechanical Engineering (English Version), 2016, 29: 357-364. [115]         Gao X, MinJ, Zhang L, Li Q, Lian C, Lin J. Forming Limit Curve of a Quenching andPartitioning Steel: Prediction and Experimental Validation. Journal of Ironand Steel Research, International, 2016, 23: 580-585. [116]         Ding L, Lin J,Min J, Pang Z, Ye Y. Necking of Q&P steel during uniaxial tensiletest with the aid of DIC technique. Chinese Journal of Mechanical Engineering (EnglishVersion), 2013, 26: 448-453. [117]         Lin J, Min J, Ye Y, Xin L, DingL. Investigation on the Mechanical Properties at Room Temperature of Q&PSteel Sheet with Ultrahigh Strength. Journal of Iron and SteelResearch, International, 2011, 18: 851-854. [118]         Hou Y, Zhang X,Min J*, Lee MG. Plasticdeformation of ultra-thin pure titanium sheet subject to tension-compressionloadings. IOP Conf. Series: Materials Science and Engineering 1270 (2022)012020 (The 19th International Conference on Metal Forming)[119]         刘张，申逸菲，闵峻英，侯勇，叶又，侯泽然，林建平. 切割工艺对 1.5 GPa 级超高强度钢扩孔性能的影响. 塑性工程学报. 2022, 29(5), 202-210[120]         孔婕，邓璐璐，刘亿，闵峻英. 基于 GISSMO 断裂准则的 6016 铝合金断裂行为研究. 精密成形工程. 2022, 14(4), 1-10[121]         申逸菲，刘张，闵峻英，刘鹏鹏，魏一凡，林建平. 超高强钢的颈缩极限应变测定方法比较分析. 塑性工程学报. 2022, 29 (4),104-111.[122]         闵峻英，卢嘉昕，魏一凡. 工艺参数对热冲压成形 AA7075 力学性能的影响. 塑性工程学报. 2021, 28 (6), 96-103.[123]         蒋霄，闵峻英，林建平，张俊. 聚合物基体复合材料与金属的连接工艺综述. 汽车文摘, 2021, 04[124]         卢嘉昕，叶又，闵峻英，曲信磊，陶志民，陈佳捷. AA7075-T6 等温成形回弹影响因素研究. 2020 中国汽车工程学会年会论文集.[125]         林野, 胡巧声, 闵峻英, 林建平, 徐南婕, 李永记, 马世娅. 钢-FRP异质单帽形件弯曲性能试验研究. 塑性工程学报, 2019, 29(6), 243[126]         林野，闵峻英，林建平，李永记，徐南婕，滕昊. 钢/FRP复合板的力学性能. 同济大学学报（自然科学版）, 2019, 47 (S1), 43-38[127]         Nan Guo,Junying Min, Yong Hou, Jianping Lin, John E. Carsley, Thomas B. Stoughton, A.Erman Tekkaya, Till Clausmeyer, Heinrich Traphöner. AN EXPERIMENTAL STUDY ONYIELD SURFACE EVOLUTION OF A TRIP-ASSISTED STEEL. Proceedings of NUMIFORM 2019[128]         Lin Y, Lin J,Lu H, Li Y, Min J. Effects of Nb-bearing Steel on the Crashworthiness ofHot-stamping B-pillar. Advanced High Strength Steel and Press Hardening,2019, 214-218.[129]         Hou Y, Min J*,Lin J, Carsley JE, Stoughton TB. Plastic instabilities in AA5754-O undervarious stress states. IOP Conference Series: Materials Science and Engineering,2018, 418 (1), 012050[130]         Hou Y, Min J*,Lin J, Carsley JE, Stoughton TB. Cruciform specimen design for large plasticstrain during biaxial tensile testing. Journal of Physics: Conference Series, 2018,1063 (1), 012160[131]         Jiang K, Hou Y,Lin J, Min J. A springback energy based method of springback predictionfor complex automotive parts. IOP Conference Series: Materials Science and Engineering,2018, 418 (1), 012104[132]         Tang H, Hou Y, Lin J, Min J,Deng L, Zhu C, Carsley JE. Investigation of Factors Controlling the AttainableEquivalent Plastic Strain in the Gauge Region of Cruciform Specimens. SAETechnical Paper, 2018.[133]         Stoughton TB,Min J, Carsley JE. Application of DIC techniques to detect onset of neckingand fracture in uniaxial and bulge tests. Journal of Physics: Conference Series. 2017,896 (1), 012108[134]         Hou Y, MinJ*, Lin J, Liu Z, Carsley JE, Stoughton TB. Springback prediction of sheetmetals using improved material models. Procedia Engineering. 2017, 207: 173–178.[135]         Stoughton TB,Carsley JE, Min J, Lin J. Advances in characterization of sheet metalforming limits. Journalof Physics: Conference Series 2016, 734 (3), 032073[136]         Min J, Carter J T, Hector L G Jr, Verma R, Lin J P.Localized Deformation Bands and Yield Point Elongation in Magnesium Alloy SheetZEK100-O. Proceedingsof 9th International Conference on Magnesium Alloys and their Applications,2012: 8-12.[137]         Min J, Hector LGJr, Carter JT, Verma R. Yield PointElongation and the Portevin-Le Chatelier Effect in Magnesium AZ31B-O RolledSheet. Proceedingsof 9th International Conference on Magnesium Alloys and their Applications,2012.[138]         Mace F, Lin J, Min J.Thermo-Mechanical Analysis of a Cooling System for Hot Stamping Tools. Advanced Materials Research, 2012, 538-541: 2053-2060.[139]         Li J, Min J, Qin K, Lin J, Liu F,Liu L. Investigation on the effects of sheet thickness and deformationtemperature on the forming limits of boron steel 22MnB5. Key EngineeringMaterials, 2011, 474-476: 993-997.[140]         李爽爽，宋伟，邹亮，闵峻英，林建平. 前保险杠导流板迎风角度对轻型客车风阻的影响. 汽车工程. 2022, 44(11), 1779-1785[141]         Yongji Li,Junying Min, Ye Lin, Jianping Lin, Hongzhou Lu. AN EQUIVALENT SUB-MODEL OFB-PILLAR ASSEMBLY REPRESENTING THE SIDE CRASHWORTHINESS OF A VEHICLE. Proceedingsof NUMIFORM 2019[142]         胡巧声, 李永记, 宋伟, 闵峻英, 赵强, 林建平. 汽车电子风扇转速控制研究. 中国工程机械学报, 2019, 17 (3), 272-277.[143]         Y Lin, H Bai,J Lin, M Wang, H Lu, J Min. A lightweight method of thin-walled beamsbased on cross-sectional characteristic. Procedia Manufacturing, 2018, 15: 852-860.[144]         赵强， 林建平， 闵峻英， 胡巧声， 宋伟. 客车发动机舱热管理系统的数值仿真与实验验证. 计算机辅助工程, 2017, 6, 004[145]         严浩宇，闵峻英，黄明泰. 高强度钢板热成形极限的模具设计及试验研究. 机械制造，2010，48 (9), 62-64.[146]         闵峻英， 林建平， 谢红. 指南车的新型定向机构设计及其系统误差分析. 浙江工业大学学报, 2008, 36 (5), 565-567[147]         ChristopherPrinz, Dieter Kreimeier, Bernd Kuhlenkötter, Weimin ZHANG, Junying MIN. Learning Factories – Qualification training within areal-world production environment. Proceedings of the 12th InternationalConference on Modern Industrial Training. 2018, pp11-17Christopher Prinz, Dieter Kreimeier, BerndKuhlenkötter, Weimin ZHANG, Junying MIN. 学习工厂——在真实的生产环境中进行资格培训. 第十二届国际现代工业培训学术会议论文集, 2018, pp11-17.[148]         Zhang W, CaiW, Min J, Fleischer J, Ehrmann C, Prinz C, Kreimeier D. 5G and AI TechnologyApplication in the AMTC Learning Factory. Procedia Manufacturing.45(2020)66-71. (EI) 10th Conference on Learning Factories, CLF2020 论著 [1]     闵峻英, 侯泽然, 连昌伟等. 轻量化金属板材成形—力学表征与数值模拟.机械工业出版社,2023年6月. ISBN: 9787111727521[2]     闵峻英, 张为民, 何林曦, 徐南婕等译. 工业4.0手册. [德]甘特·莱因哈特编. 机械工业出版社, 2021年3月. ISBN: 9787111662570[3]     闵峻英，林建平. 金属板材热辅助塑性成形理论. 同济大学出版社, 2014 ISBN: 9787560854236. 专利 [1]     闵峻英，明平文，侯泽然，何志康，杨代军，郭楠，张存满，林建平. 消除超薄金属板导电加热变形的导电加热装置: 中国, 申请号:202111440908.0,2021-12-01. (发明，已授权)[2]     闵峻英，明平文，侯泽然，何志康，杨代军，郭楠，张存满，林建平. 快速加热不起皱的金属板及其加热装置: 中国, 申请号:202210007135.5,2022-01-06. (发明，已授权)[3]    闵峻英 侯勇 刘张 林建平. 金属薄板材料平面应变路径断裂极限应变的测定方法. 发明专利CN202011189839.6同济大学2021-03-02(发明，已授权)[4]    闵峻英 明平文 张存满 杨代军 郭楠. 一种成形极限测试方法. 发明专利CN202110536615.6同济大学2021-07-16(发明，已授权)[5]     闵峻英 李永记 胡家皓 林建平. 基于数字图像相关技术的工业机器人刚度辨识方法. 发明专利CN201911268266.3同济大学2020-05-08(发明，已授权)[6]     林建平, 邓璐璐, 侯勇, 闵峻英. 金属板材的临界压应力失稳曲线获取方法.CN201810301628.3 (发明，已授权)[7]     侯勇, 闵峻英, 林建平, 江凯威, 邓璐璐. 用于屈服行为测试的十字形双向拉伸金属薄板试件及其制备方法.CN201810314890.1 (发明，已授权)[8]     闵峻英，张凯，王云庆，杨庆保，林建平. 一种热熔自攻单面铆接装置.CN201810613838.6 (发明，已授权)[9]     Y .李, 闵峻英, B .E .卡尔森, S .J .胡. 具有切割芯轴尖端的铆钉和单侧连接方法. CN105782199 B (发明，已授权)[10] 闵峻英,叶又,康柳根,张铃,林建平,万海浪. 基于DIC应变测量系统的板料成形能力与变形均化能力. CN201510009999.0(发明，已授权)[11] 闵峻英, 陈博, 林建平. 同轻智能计算实验数据处理软件V1.0.软著2022SR1483467[12] 闵峻英, 陈博, 林建平. 同轻智能计算材料卡片生成软件V1.0.软著2022SR1542713 学生信息 当前位置：教师主页 > 学生信息 入学日期 所学专业 学号 学位 招生信息 当前位置：教师主页 > 招生信息 招生学院 招生专业 研究方向 招生人数 推免人数 考试方式 招生类别 招生年份