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教育背景 1996.4-1999.6 吉林工业大学材料加工工程 博士 1993.9-1996.3 哈尔滨理工大学材料加工工程 硕士 1989.9-1993.7 哈尔滨工业大学材料加工工程 学士 工作经历 2022.9- 上海交通大学 特聘教授 2019.3- 上海交大-宝钢汽车板使用技术联合研究室 主任 2016.8― 上海交通大学 长聘教授 2013.12- 机械系统与振动国家重点实验室 副主任 2007.12― 上海交通大学机械与动力工程学院薄板结构制造技术研究所 教授 2008.7― 宝钢集团人才开发院 兼职教授 2005―2019 上海交大-宝钢汽车板使用技术联合研究室 副主任 2005.1―5 密西根大学(UM)吴贤铭先进制造技术中心 访问学者 2001―2007 上海交通大学机械与动力工程学院 副教授 1999―2001 上海交通大学机械工程流动站   博士后 出访及挂职经历 2018.7~ 民革上海交通大学委员会主委,民革上海市第十四届、第十五届委员会常委 2018.7~2021.7 上海市闵行区政协委员 科研项目 2021-2025 WR计划领军人才项目“可热处理强化高强铝合金复杂薄壁构件超低温成形工艺新原理”,负责人 2020-2025 国家重点研发计划“变革性技术关键科学问题”重点专项“铝合金薄壁构件超低温成形制造新原理”(2019YFA0708803)课题负责人 2020-2023 国家自然科学基金面上项目“钛合金航空薄壁构件热冲压回弹预测与控制方法研究”(51975366),负责人 2019-2022 民机专项专题"大涵道比发动机进气道整体唇口制造技术研究",负责人 2019-2022 宝钢“新能源汽车驱动电机极限工况下无取向硅钢材料服役性能研究”负责人 2019-2021 宝钢“600MPa级别高强铝合金板带产品开发及其温热成形技术研究”负责人 2019-2021 上海航天先进技术联合研究基金重点项目“航天贮箱筒段材料结构一体化成形技术”(USCAST2019-14),负责人 2018-2022 国家自然科学基金重大项目(51790170)“复杂航天薄壁构件材料-结构一体化设计与制造”,主研 2017-2021 科技部十三五重点研发计划子课题”高性能超高强汽车用钢回弹特性的评价和控制方法“,负责人 2017-2019 中国航空工业集团公司北京航空制造工程研究所 ”轻质合金热冲压成形数值模拟及成形缺陷预测“,负责人 2017-2019 上汽通用“车身制造全过程复杂工况应力场与变形预测仿真建模”负责人 2017-2019 宝钢股份“先进热冲压技术研发和产业化应用”,负责人 2018-2019 中车青岛四方“超大型高速动车组车体波纹板零件成形仿真”,负责人 2015-2016 宝钢股份“热冲压模具热机械疲劳失效及寿命预测研究”,负责人 2015-2016 美国福特URP(University Research Program),Shear Fracture Mechanism and M odeling for Aluminum and Advanced High Strength Steels,主研 2014-2017 国家自然科学基金钢铁联合基金重点项目(U1360203)“超薄电工钢定子铁芯制造的尺度效应与控形控性方法”,负责人 2014-2017 高档数控机床与基础制造装备科技重大专项(2014ZX04001131)“航天轻质结构件多功能真空复合成形装备与工艺”副组长 2013-2015 国家优秀青年科学基金项目(51222505)“先进高强钢板剪切失效与局部成形性能评价”,负责人 2013-2015 航天先进技术联合研究中心科学基金“航天薄壁结构数字化封样技术及其在***的应用”,负责人 2013-2015 中国第一重型机械股份公司“内高压成形工艺合作开发”,负责人 2013-2015 上海市人才发展资金(201321)“超薄电工钢定子铁芯制造过程中的尺度效应”,负责人 2013-2014 宝钢股份“汽车热轧高强钢板剪切质量评估和控制方法研究”,负责人 2012-2013 宝钢股份“运煤车轻量化解决方案及零件可成形性分析”,负责人 2011-2013 美国福特URP(University Research Program)“Next Generation Q&P Steel”,负责人 2011-2012 上海市曙光计划项目(10SG13)"车身外覆盖件面畸变形成机理与预测方法",负责人 2011-2012 宝钢股份“管件液压成形截面设计及模具开发”,负责人 2011-2012 “机械系统与振动”国家重点实验室自主课题(MSVMS201101)“车身覆盖件表面缺陷预测及控制”,负责人 2010-2014 国家973计划课题(2010CB731703)“********大型复杂结构件制造的基础研究”负责人 2010-2012 教育部博士点基金(20100073110034)“车身覆盖件面畸变形成机理与预测方法”负责人 2010―2011 宝钢股份“管材成形性能评价及成形极限实验方法”,负责人 2010-2011 上海通用项目“伺服滚边系统验证及仿真分析系统建立”,负责人 2010-2011 上海赛科利模具技术有限公司合作项目"大型车身覆盖件面畸变预测方法研究",负责人 2009―2010 上海汽车工业发展基金、上海大众项目“车身覆盖件滚压包边成形机理和应用研究”负责人 2008-2011 教育部新世纪优秀人才支持计划(NCET-08-0358)"滚压包边过程全流程仿真分析与缺陷预测",负责人 2008-2009 “机械系统与振动”国家重点实验室自主课题(MSV-MS-2008-12)“车身覆盖件滚压包边成形实验研究”,负责人 2007-2009 国家863项目(2007AA04Z145)“车身覆盖件柔性辊压包边过程仿真与工艺路径优化技术研究”,负责人 2007―2008 宝钢项目“基于微观组织演化的TRIP高强度钢板成形性能预测及控制方法”,负责人 2007―2008 上海大众项目“车身覆盖件表面刚度数值模拟与实验研究”,负责人 2006―2008 上海市重大基础研究项目子课题(06dj14005)“高强度钢板相变诱发塑性效应的动力学建模及其成形工艺控制方法研究”技术负责人 2005-2007 国家自然科学基金项目(50405015)“基于复杂应变路径的TRIP高强度钢板诱发塑性行为研究”,负责人 著作: [1] 林忠钦,李淑慧,于忠奇,蒋浩民,汽车板精益成形技术(国家自然科学基金研究专著),机械工业出版社,32万字,2009年,I S B N:9787111262299, 2010中国机械工业科学技术一等奖(著作类) [2] 林忠钦,李淑慧,朱亚群,《车身覆盖件冲压成形仿真》 , 机械工业出版社, ISBN9787111152019,2007上海汽车工业教育基金会优秀著作一等奖 [3] 裴瑞琳,李淑慧,张延松,电机用电工钢,(英) Philip, Beckley著,上海交通大学出版社 2018.3 (译著) 教学工作 课程名称: 材料与成型基础/材料导论 授课对象:本科生 学时数:51 学分:3 Introductory course to engineering materials and processing. Properties (mechanical, thermal and electrical) of metals, polymers, ceramics materials. Correlations of these properties with: (1) their internal structures (atomic structure, bonding, crystal structure, micro-and macro); (2) service conditions (mechanical, thermal); and (3) processing 板材成形理论与先进成形技术 授课对象:研究生 学时数:48 学分:3 塑性变形理论与数值模拟 授课对象:研究生 学时数:48 学分:3 软件版权登记及专利 国家标准: “金属管材成形极限图(FLD)试验方法 中国 GB/T 29536-2013 2013-06-04 授权发明专利: 35. 于忠奇,李淑慧,赵亦希,何霁,余小鹏,多功能带交叉筋筒体流动旋压成形模具, CN202110644862.8,2022.06.28 34. 何霁,郭聪,李淑慧,复合材料多尺度并发模拟方法和系统, CN202110362901.5,2022.06.28 33. 何霁,韩国丰,李淑慧,一种微观尺度下金属薄板剪切大应变测试方法, ZL 2021 1 0426342.X, 2022.05.31 32. 李永丰,李淑慧,陈源,韩国丰,一种钛或钛合金电脉冲辅助热冲压成形方法及装置, ZL 2020 1 1050214.1, 2022.04. 08 31. 李淑慧,李永丰,张云光,邓茗,来新民,铝合金薄壁构件及其高效热冲压成形方法和应用, ZL 2020 1 1536030.6,2021.11.09 30. 何霁,冯彬,李淑慧,赵亦希,于忠奇,一种铝合金板体复合-固溶淬火一体化热成形方法, ZL 2020 1 0219568.8,2021.11.09 29. 于忠奇,周宇,李淑慧,赵亦希,何霁,一种带交叉筋筒形件流动旋压成形模具, ZL 2020 1 0377589.2,2021.09. 28 28. 何霁,冯彬,李淑慧,赵亦希,于忠奇,一种用于薄壁筒形件的内外表面交叉筋热成型工艺和模具, ZL 2019 1 0274633.4,2021.08.03 27. 李淑慧,李永丰,韩国丰,何霁,可控制均温区长度的Gleeble热拉伸系统, ZL 2019 1 0367560.3,2021.03.09 26. 李淑慧,李永丰,韩国丰,何霁,陈源,适用于金属板材拉伸DIC测试的夹具, ZL 2019 1 0142580.0,2021.03.09 25. 李淑慧,李永丰,韩国丰,赵亦希,何霁,一种基于压印的高温散斑制备方法, ZL 201910217637.9, 2021.01.12 24. 李淑慧,李永丰,韩国丰,何霁,陈源,适用于金属板材拉伸DIC测试的夹具, ZL 2019 1 0142580.0, 2020.12.31 23. 李淑慧,汪喆,崔荣高,何霁,金属薄板冲裁最优间隙确定方法、系统、装置及介质, ZL 2019 10064429.X,2020.12.29 22. 李淑慧,李永丰,韩国丰,何霁,陈源,热成形和热切边复合工艺实验模具及工艺方法, ZL2019 1 0142570.7,2020-07-28 21. 李淑慧,张渤涛,陈源,韩国丰,柔性恒载荷电化学充氢实验装置, ZL 2019 1 0604357.3,2020-07-24 20. 何霁,冯怡爽,李淑慧,基于DIC的颈缩失效极限应变检测方法,ZL 2018 1 1051422.6, 2020-07-11 19. 李淑慧,邹丹青,何霁,李永丰,一种预测TRIP型高强钢疲劳断裂后奥氏体含量的方法, ZL 2017 1 0267536.3, 2020-05-22 18. 李淑慧,张渤涛,何霁,李永丰,可拆卸式变工艺参数的剪切模具, ZL2018 1 0600058.8,2020-02-11 17. 李淑慧,顾彬,何霁,陈源,李永丰,一种金属板材面外剪切性能测试方法, ZL2017 1 0331514.9,2020-01-07 16. 李淑慧,崔荣高,汪喆,王心可,来新民,一种可拆卸的多档弹性应力单片法磁性能测试夹具, ZL 2017 1 0199117.0, 2019-11-19 15. 何霁,李淑慧,赵亦希,于忠奇,双面复杂筋特征结构件一体化成形装置及成形方法, ZL 2018 1 0479142.9, 2019-11-08 14. 赵亦希,朱宝行,李淑慧,于忠奇,何霁,带内外加强筋筒形件径向渐进挤压成形工艺方法, ZL 2018 1 0371949.0, 2019-09-24 13. 李淑慧,崔荣高,汪喆,王心可,含应力的JA磁滞模型参数识别方法, ZL 201810426937.3,2019-07-16 12. 李淑慧,何霁,邹丹青,来新民,金属板料单向拉伸过程温度变化的预测方法, ZL 2016 1 0053427.7,2018-08-31 11. 李淑慧,邹丹青,董梁,来新民,Q&P钢在不同应变率单拉后残余奥氏体含量的预测方法, ZL 2014 1 0443422.6,2017-06-13 10. 李淑慧,赵亦希,董梁,来新民,柔性剪切分离模具,ZL 2013 1 0687344.x,2016-11-02 9. 王华,李淑慧,林忠钦,张丽娜,飞机机翼楔形翼梁装配模拟实验台, ZL 2014 1 0148243.X,2016-04-13 8. 王洪泽,张延松,李淑慧,来新民. 一种电机定子叠片的旋转自动焊接系统及焊接方法, ZL 2014 1 0475974.5,2016-05-25 7. 赵亦希,康稳*,李淑慧,于忠奇,马越峰,晏培杰,晁灿*,方管质量检测装置, ZL 2014 1 0005586.0,2016-03-02 6. 李淑慧,邹丹青,何霁,来新民,预测Q&P钢在不同温度变形后残余奥氏体变化的方法, ZL 2014 1 0030041.5,2015-10-14 5. 赵亦希,李梅,李淑慧,于忠奇,黄胜,魏天海,柔性拉伸弯曲成形断裂特征模具, ZL 2011 1 0223812.9,2013-06-19 4. 李淑慧,赵亦希,席升印,胡 星,伍俊棠,涵盖多种包边方式的机器人滚压包边成形特征模具, ZL 2009 1 0049399.1,2012-05-23 3. 林忠钦、来新民、王武荣、李淑慧、侯 波,提高汽车覆盖件制造质量稳定性的工艺优化系统, ZL 2009 1 0046682.9,2010-07-28 2. 陈新平,蒋浩民,于忠奇,李淑慧,鲍平,侯英岢,可获得可控和均匀硬度铸铁类模具材料热处理方法 ZL 2008 1 0040693.1,2010-01-20 1. 林忠钦、李淑慧、徐峰、刘罡、包友霞,拉深筋混合优化设计方法,ZL01142617.9,2004-12-29 荣誉奖励 中组部“万人计划”领军人才;国家优青;上海市曙光学者;教育部新世纪优秀人才。 (21) 2020国家科技部中青年科技创新领军人才 (20) 2020上海市三八红旗手标兵及上海市巾帼创新奖 (19) 汽车用热冲压材料与零件关键技术与产业化应用,2020中国冶金科学技术一等奖(排7) (18) 汽车用复杂液压成形管件设计制造关键技术与产业化应用,2019中国冶金科学技术一等奖(排2) (17) 管件液压成形产品、工艺和模具技术研究,2017年中国宝武技术创新重大成果奖一等奖(排7) (16) 高强钢辊弯成形控形控性技术及应用,2014年上海市科技进步二等奖(排1) (15) 《汽车板精益成形技术》专著,2010中国机械科学技术一等奖(著作类)(排2) (14) 《车身覆盖件冲压成形仿真》,2007上海市汽车工业教育基金会优秀著作一等奖(排2) (13) 轿车覆盖件精益成形技术,2005国家科技进步二等奖(排4) (12) 汽车板精益成形技术及应用,2004中国机械科学技术一等奖(排4) (11) 轿车车身制造质量控制技术及应用,2002国家科技进步二等奖(排6) (10) 基于数值模拟的轿车冲压件成形质量控制,2001年上海市科技进步一等奖(排3) (9) 2017唐立新教学名师 (8) 2014上海市五一巾帼奖 (7) 2013上海市人才发展基金 (6) 2012国家优秀青年科学基金 (5) 2011上海市教育系统三八红旗手 (4) 2010上海市曙光学者 (3) 2008教育部新世纪优秀人才 (2) 2008上海交通大学十大青年才俊 (1) 2009上海交通大学SMC晨星优秀青年教师(A类)计划

研究领域

薄板结构智能制造 金属塑性成形理论与数值模拟 等材-增材复合成形技术 新能源汽车电机制造技术

近期论文

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2022: [76]Bin Feng, Bin Gu**, Shuhui Li*. Cryogenic deformation behavior and failure mechanism of AA7075 alloy sheets tempered at different conditions. Materials Science and Engineering A, 2022, 848:143396. [75]Han, Guofeng; He, Ji*; Li, Shuhui. Simple shear deformation of sheet metals: finite strain perturbation analysis and high-resolution quasi-in-situ strain measurement[J]. International Journal of Plasticity, 2022, 150: 103194. [74]Li, Yongfeng*; Li, Shuhui*. Deep learning based phase transformation model for the prediction of microstructure and mechanical properties of hot-stamped parts[J]. International Journal of Mechanical Sciences, 2022, 220: 107134. 2021: [73] Yongfeng Li, Yuan Chen, Shuhui Li*. Phase transformation testing and modeling for hot stamping of Boron steel in consideration of the effect of the prior austenite deformation. Materials Science and Engineering A , 2021,818,141447 [72] Yongfeng Li*, Yunguang Zhang, Shuhui Li*. Viscoplastic constitutive modeling of boron steel under large strain conditions and its application in hot semi-cutting, Journal of Manufacturing Processes, 2021,66: 532-548. [71] Zhang B T, Li S H*, He J. Effects of prestrain and inner stress on the susceptibility of hot stamped boron steel to hydrogen embrittlement [J].Metallurgical and Materials Transactions A, 2021, 52: 2314-2330. [70] Zhang B T, Li S H*, Li Y F. Numerical approach for predicting hydrogen diffusion in dual-phase hot stamped boron steel with hydrogen embrittlement [J]. Journal of Materials Research and Technology, 2021, 15: 4048-4063. [69] Yongfeng Li*, Shuhui Li*, Yuan Chen, An extended linear method to evaluate the viscoplastic behavior of boron steel at large strain with full-field measurements, International Journal of Solids and Structures, 2021(224): 111049 [68] Yuan Chen, Guofeng Han, Shuhui Li*, Zhiqiang Li, Zhongqin Lin. Time-dependent springback prediction with stress relaxation effect for non-isothermal hot stamping of titanium alloy sheets. The International Journal of Advanced Manufacturing Technology, 2021, 115(1), 637-653. [67] Yuan Chen, Shuhui Li*, Yongfeng Li, Yaoqi Wang, Zhiqiang Li, Zhongqin Lin. Constitutive modeling of TA15 alloy sheet coupling phase transformation in non-isothermal hot stamping process. Journal of Materials Research and Technology, 2021, 12:629-642. [66] 安剑,李永丰,张云,李淑慧,热冲压条件下2219铝合金的本构行为测试与建模,机械工程学报,2021,57(4): 44-52. 2020: [65] Guo C, He J, Su YH, Li SH, Thermo-stamping co-curing process for CFRP/steel hybrid sheets and its interface strength improvement, COMPOSITE STRUCTURES, vol.241, 2020 [64]Ronggao Cui,Shuhui Li*, Pulsed Laser Welding of Laminated Electrical Steels, Journal of Materials Process Technology, 2020, 285: 116778 [63] Ji He, Shuhui Li*, Liang Dong, Experiments and FE simulation of edge cracking considering prehardening after blanking process, International Journal of Material Forming, 2020,13 (4):547-560 [62] Gu B, He J*, Li S, Lin Z. Anisotropic fracture modeling of sheet metals: from in-plane to out-of-plane[J]. International Journal of Solids and Structures, 2020,182:112-140 2019: [61] Yongfeng Li, Shuhui Li*, Yuan Chen, Guofeng Han, Constitutive Parameters Identification Based on DIC Assisted Thermo-mechanical Tensile Test for Hot Stamping of Boron Steel, Journal of Materials Processing Technology, 2019, 271: 429-443. [60] He Ji, Wang Zhe, Li Shuhui*, Dong Liang, Cao Xudong, Zhang Weigang, Optimum clearance determination in blanking coarse-grained non-oriented electrical steel sheets: experiment and simulation, International Journal of Material Forming, 2019, 12(4):575-586 [59] Gu DD, Du L, Dai DH, Lin KJ, Xia MJ, Li SH, He J, Influence of thermal behavior along deposition direction on microstructure and microhardness of laser melting deposited metallic parts, APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING, vol.125, i: 7,2019 [58] He J, Li YF, Gu B, Li SH, Effects of reverse loading on forming limit predictions with distortional anisotropic hardening under associated and non-associated flow rules, INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES, vol.156, 2019: 446-461 [57] Yongfeng Li, Shuhui Li*, Ji He, Yuan Chen, Lan Yue, Identification methods on blank-die interfacial heat transfer coefficient in press hardening, Applied Thermal Engineering, 2019(152): 865-877 [56] He Ji*, Guofeng Han, Li Shuhui*, Danqing Zou, To correlate the phase transformation and mechanical behavior of QP steel sheets, International Journal of Mechanical Sciences, 2019, 152: 198-210 2018: [55] He Ji, Gu B, Li Y, Li S*. Forming Limits Under Stretch-Bending Through Distortionless and Distortional Anisotropic Hardening. ASME Journal of Manufacturing Science and Engineering 2018;140(12):121013-121013-14. [54] Cui R , Li S , Wang Z , et al. A modified residual stress dependent Jile-Atherton hysteresis model[J]. Journal of Magnetism & Magnetic Materials, 2018, 465: 578-584. [53] He Ji, Shuhui Li*, Shanshuai Wang, Deformation behavior of sandwich hemispherical structure under axial compression at low temperature, Composite Structures, 2018, 203: 267-277 [52] Zhe Wang, Shuhui Li *, Ronggao Cui, Xinke Wang, Influence of Grain Size and Blanking Clearance on Magnetic Properties Deterioration of Non-Oriented Electrical Steel, IEEE TRANSACTIONS ON MAGNETICS, 2018.200 [51] Shuhui Li*, Ji He*, Bin Gu, Danielle Zeng, Z. CedricXia, Yixi Zhao, Zhongqin Lin, Anisotropic fracture of advanced high strength steel sheets: Experiment and theory, International Journal of Plasticity, 2018(103):95-118 [50] Zou Danqing, Shuhui Li*, Ji He, The Deformation Induced Martensitic Transformation and Mechanical Behavior of Quenching and Partitioning steels under Complex Loading Process, Materials Science & Engineering A, 2018(715): 243-256 [49] Wang zhe, Shuhui Li*, Ronggao Cui, Xinke Wang, Weigang Zhang, Modeling of Surface Layer and Strain Gradient Hardening Effects on Micro-Bending of Non-oriented Silicon Steel Sheet, Materials Science & Engineering A, 2018(711) : 498~507 2017 [48] Bin Gu, JI HE, Shuhui Li, Yuan Chen, Yongfeng Li, Cyclic sheet metal test comparison and parameter calibration for springback prediction of dual phase steel sheets. ASME/Journal of Manufacturing Science and Engineering, 2017,139(9). [47] Zhang YS, Wang HZ, Chen KK, Li SH, Comparison of laser and TIG welding of laminated electrical steels, JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, vol.247, 2017: 55-63 [46] Danqing Zou, Shuhui Li*, Ji He. Temperature and Strain rate dependent Deformation Induced Martensitic Transformation and Flow Behavior of Quenching and Partitioning Steels [J]. Materials Science and Engineering A, 2017,680:54-63. [45] Shanshuai Wang, Shuhui Li*, Ji He. Buckling Behavior of Sandwich Hemispherical Structure Considering Deformation Modes under Axial Compression[J]. Composite Structures, 2017,163:312-324. [44] Dong L, Li S*, He J. Ductile fracture initiation of anisotropic metal sheets[J]. Journal of Materials Engineering and Performance, 2017, 26(7):3285-3298 2016 [43] Wang HZ, Zhang YS, Li SH, Laser welding of laminated electrical steels, JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, vol. 230, 2016: 99-108 [42] Dong L, Li S, He J, et al. Investigation on shearing and local formability of hot-rolled high strength plates[J]. Journal of Manufacturing Science & Engineering, 2016,138(9): 091001-091013. [41] Shanshuai Wang,Shuhui Li,Ji He,Yixi Zhao.Asymmetric Postbuckling Behavior of Hemispherical Shell Structure Under Axial Compression [J]Journal of Engineering Materials and Technology, 2016, 138(1): 011005. [40] Shuhui Li, Danqing Zou, Cedric Xia, Ji He. Effect of Strain Rate on Deformation-Induced Martensitic Transformation of Quenching and Partitioning Steels [J]. Steel Research International, 2016, 87(10): 1302-1311. 2015 [39] Shuhui Li*, JiHe, YixiZhao, ShanshuaiWang, LiangDong, RonggaoCui, Theoretical failure investigation for sheet metals under hybrid stretch-bending loadings[J], International Journal of Mechanical Sciences, 2015, 104: 75–90 2014 [38] He J, Zeng D, Zhu XH, Xia ZC, Li SH, Effect of nonlinear strain paths on forming limits under isotropic and anisotropic hardening,INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES, vol.51, 2014: 402-415 [37] Shuhui Li*, Bo Hou, Material Behavior Modeling in Machining Simulation of 7075-T651 Aluminum Alloy[J], ASME/Journal of Engineering Materials and Technology, 2014, 136: 1-14 [36] Shuhui Li*, Ji He, Z. Cedric Xia, Danielle Zeng, Bo Hou. Bifurcation Analysis of Forming Limits for an Orthotropic Sheet Metal[J]. ASME/Journal of Manufacturing Science and Engineering, 2014, 136: 1-10. ~2013 [35] He J, Xia ZC, Li SH, Zeng D, M-K Analysis of Forming Limit Diagram Under Stretch-Bending, JOURNAL OF MANUFACTURING SCIENCE AND ENGINEERING-TRANSACTIONS OF THE ASME, v: 135, i: 4,2013 [34] He J, Xia ZC, Zhu XH, Zeng D, Li SH, Sheet metal forming limits under stretch-bending with anisotropic hardening, INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES, vol.75, 2013: 244-256 [33] He J, Xia ZC, Zeng D, Li SH, Forming Limits of a Sheet Metal After Continuous-Bending-Under-Tension Loading, JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY-TRANSACTIONS OF THE ASME, vol.135, 2013: [32] Hongqing Shen, Shuhui Li*, Xiaofeng Ni, G.L. Chen, A modified displacement adjustment method to compensate for surface deflections in the automobile exterior panels. Journal of Materials Processing Technology, 2013, 213(11): 1943–1953 [31] Hu X, Zhao YX, Huang S, Li SH, Lin ZQ, Numerical analysis of the roller hemming process, INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, vol.62, 2012: 543-550 [30] Shuhui Li*, Xianfeng Chen, Zhongqin Lin, Study on formability of tube hydroforming through elliptical die inserts[J], Journal of Materials Processing Tech,2012, 212: 1916-1924 [29] Dan WJ, Lin ZQ, Li SH, Zhang WG, Study on the mixture strain hardening of multi-phase steels, MATERIALS SCIENCE AND ENGINEERING A, vol.552, 2012: 1-8 [28] Chen XF, Li SH, Yu ZQ, Lin ZQ, Study on experimental approaches of forming limit curve for tube hydroforming, INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, vol.61, 2012: 87-100 [27] Shen HQ, Li SH, Chen GL, Quantitative analysis of surface deflections in the automobile exterior panel based on a curvature-deviation method, JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, vol.212, 2012: 1548-1556 [26] Chen XF, Yu ZQ, Hou B, Li SH, Lin ZQ, A theoretical and experimental study on forming limit diagram for a seamed tube hydroforming, JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, vol.211, 2011: 2012-2021 [25] Shuhui Li*, Xing Hu, Yixi Zhao, Zhongqin Lin, Nanqiao Xu,Cyclic hardening behavior of roller hemming in thStudy of tube hydroforming in a trapezoid-sectional die in case of aluminum alloy sheets[J], Materials & Design, 2011, 32: 2308-2316 [24] Wu ZG, Li SH, Zhang WG, Wang WR, Ductile fracture simulation of hydropiercing process based on various criteria in 3D modeling, MATERIALS & DESIGN, vol.31, 2010: 3661-3671 [23]Hou B, Wang WR, Li SH, Lin ZQ, Xia ZC, Stochastic analysis and robust optimization for a deck lid inner panel stamping, MATERIALS & DESIGN, vol.31, 2010: 1191-1199 [22] Hu X, Lin ZQ, Li SH, Zhao YX, Fracture limit prediction for roller hemming of aluminum alloy sheet, MATERIALS & DESIGN, vol.31, 2010: 1410-1416 [21] Shen HQ, Li SH, Chen GL, Numerical analysis of panels' dent resistance considering the Bauschinger effect, MATERIALS & DESIGN, vol.31, 2010: 870-876 [20] Xu XH, Zhang WG, Li SH, Lin ZQ, Study of tube hydroforming in a trapezoid-sectional die, THIN-WALLED STRUCTURES, vol.47, 2009: 1397-1403 [19] Shuhui Li, Xianghe Xu, Weigang Zhang, Zhongqin Lin. Study on the crushing and hydroforming processes of tubes in a trapezoid-sectional die, International Journal of Advanced Manufacturing Technology, vol.43, 2009: 67-77 [18] Zeng G, Li SH, Yu ZQ, Lai XM, Optimization design of roll profiles for cold roll forming based on response surface method, MATERIALS & DESIGN, vol.30,2009: 1930-1938 [17] S.H.Li, G.Zeng, Y.F.Ma, Y.J.Guo, X.M.Lai, Residual stresses in roll-formed square hollow sections, Thin-Walled Structures, Thin-Walled Structures, vol.47, 2009: 505-513 [16] Xianghe Xu, Shuhui Li, Weigang Zhang, Zhongqin Lin, Analysis of thickness distribution of square-sectional hydroformed parts, Journal of Materials Processing & Technology, vol.209, No.16, 2009:158-164 [15] T.K. Shan, S.H. Li, W.G. Zhang, Z.G. Xu, Prediction of martensitic transformation and deformation behavior in the TRIP steel sheet forming, Materials and Design, vol.29, 2008: 1810-1816 [14] LI Shuhui, YANG Bing, ZHANG Weigang, LIN Zhongqin, Loading path Prediction for tube hydroforming process using a fuzzy control strategy, Materials and Design, vol.29, 2008: 1110-1116 [13] W.J. Dan, S.H. Li, W.G. Zhang, Z.Q. Lin, The effect of strain-induced martensitic transformation on mechanical properties of TRIP steel, Materials and Design, vol.29, No.3, 2008: 604-612 [12]Shuhui Li*, Dan W. J., Zhang W. G., Lin Z. Q., A model for strain-induced martensitic transformation of TRIP steel with pre-strain[J], Computational Materials Science, 2007, 40: 292-299 [11] Dan WJ, Zhang WG, Li SH, Lin ZQ,, A model for strain-induced martensitic transformation of TRIP steel with strain rate, COMPUTATIONAL MATERIALS SCIENCE, vol. 40, 2007: 101-107 [10] Dan WJ, Zhang WG, Li SH, Lin ZQ, Finite element simulation on strain-induced martensitic transformation effects in TRIP steel sheet forming, COMPUTATIONAL MATERIALS SCIENCE, vol.39, 2007: 593-599 [9] Wang WR, Chen GL, Lin ZQ, Li SH, Determination of optimal blank holder force trajectories for segmented binders of step rectangle box using PID closed-loop FEM simulation, INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, vol.32, 2007: 1074-1082 [8] Xu C, Lin ZQ, Li SH, Zhang WG, Research on shear strength of galvannealed coatings, MATERIALS & DESIGN, vol.28, 2007: 1668-1671 [7] Dan WJ, Zhang WG, Li SH, Lin ZQ, An experimental investigation of large-strain tensile behavior of a metal sheet, MATERIALS & DESIGN, vol.28, 2007: 2190-2196 [6] Yu HY, Li SH, Gao YK, Deformation behavior of the constituent phases for cold-rolled TRIP-assisted steels during uniaxial tension, MATERIALS CHARACTERIZATION, vol.57, 2006: 160-165 [5] Yang B, Zhang WG, Li SH, Analysis and finite element simulation of the tube bulge hydroforming process, INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, vol.29, 2006: 453-458 [4] Yu HY, Lin ZQ, Chen GL, Li SH, Overall stress-strain relationship of cold rotted transformation induced plasticity multiphase steels, MATERIALS SCIENCE AND TECHNOLOGY, vol. 21, 2005: 311-315 [3] Jiang HM, Li SH, Wu H, Chen XP, Numerical simulation and experimental verification in the use of tailor-welded blanks in the multi-stage stamping process, Journal of Materials Processing Technology, vol.151, 2004: 316-320 [2] Xu F, Lin ZQ, Li SH, Xu WL, Study on the influences of geometrical parameters on the formability of stretch curved flanging by numerical simulation, Journal of Materials Processing Technology, vol.145, 2004: 93-98 [1] Li Shuhui, Lin Zhongqin, Xu Weili, An improved equivalent drawbead model and its application, Journal of Materials Processing Technology, vol.121, 2002: 308-312

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2021~ 大飞机先进材料创新联盟 副秘书长 2021~ 汽车用钢开发与应用技术国家重点实验室 学术委员会委员 2020~ 塑性成形技术航空科技重点实验室,学术委员会委员 2020~ 中国机械工程学会塑性工程(锻压)学会 副理事长 2017~ 机械系统与振动国家重点实验室 副主任 2017~ 上海汽车工程学会 汽车制造专业委员会 副主任委员 2017~ 浙江汽车工程学院 特聘教授 2016~ 《精密成形工程》编委 2015~ 上海金属材料近净成形工程技术研究中心 技术委员会委员 2015~ 中国机械工程学会塑性工程分会 常务理事 2015~ 中国机械工程学会塑性工程分会 管材成形技术学术委员会 副主任委员 2014~ 《模具技术》编委 2013~ 《塑性工程学报》编委 2013~ 机械系统与振动国家重点实验室 副主任 2008~ 宝钢集团 兼职教授 2005~ 上海交大-宝钢汽车板使用技术联合实验室 副主任

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