1986-1989 Ph.D. in Ship Structural Mechanics Department of Naval Engineering, Shanghai Jiao Tong University, Shanghai, China
1983-1986 Master in Ship Structural Mechanics Department of Naval Engineering, Shanghai Jiao Tong University, Shanghai, China
1978-1982 Bachelor in Ship Structural Mechanics Department of Naval Engineering, Shanghai Jiao Tong University, Shanghai, China

2018-present President, Shanghai Jiao Tong University, Shanghai, China
2016-Present Director，Chinese Institute for Quality Research，SJTU
2010-2018 Deputy President, Shanghai Jiao Tong University, Shanghai, China
2008-Present Director, General Motors-Shanghai Jiao Tong University Collaborative Research Laboratory in Advanced Manufacturing Processes
2004-2009 Vice President, Shanghai Jiao Tong University, Shanghai, China
2002-2019 Director, Partner for the Advancement of Collaborative Engineering Education (PACE) Center, Shanghai, China
2000-Present Director, Baosteel-Shanghai Jiao Tong Univ. Collaborative Laboratory of Auto Sheets Application Technologies
2000-2004 Deputy Dean and Professor, School of Mechanical Engineering, Shanghai Jiao Tong University, Shanghai, China
2000-2008 Director, GM-SJTU Satellite Lab of Auto-Body Manufacturing Technologies, Shanghai, China
1995-2000 Deputy Director and Professor, Department of Mechanical Engineering, Shanghai Jiao Tong University, Shanghai, China
1992-1994 Associate Professor, Department of Mechanical Engineering, Shanghai Jiao Tong University, Shanghai, China
1989-1992 Lecture, Department of Mechanical Engineering, Shanghai Jiao Tong University, Shanghai, China
1982-1983 Engineer, Chongqing Shipyard, China

2001 Guest Professor, University of Michigan, USA
1994-1995 Visiting Scholar, University of Sydney, Australia

(1) Lean Forming of Thin-walled Structures
(2) Manufacturing Quality Control
(3) Digital Design of Complex Products

(1) 2018-2022 Major projects of the National Natural Science Foundation of China （51790170）, Integrated Design and Manufacture of Material and Structure for Complex Aerospace Thin-Wall Components, PI
(2) 2015-2017 NSFC Innovative Research Group, Digital Design of Complex Equipment, Academic Leader
(3) 2012-2014 NSFC Innovative Research Group, Digital Design of Complex Equipment, Academic Leader
(4) 2009-2012 NSFC Innovative Research Group, Digital Design of Complex Equipment, Academic Leader
(5) 2006-2010 the State Key Fundamental Research Programs (973 program), Fundamentals for Design of Heavy Manipulators, Chief Scientist
(6) 2003-2006 National Science Fund for Distinguished Young Scholars, Mechanism Research of Stamping Forming for Aluminum Alloy Sheet, PI
(7) 2006-2009 Major Foundation Research Project of Shanghai, Material Microstructure and Stress Field Control of Forming Manufacturing, Chief Scientist
(8) 1999-2000 National High-Tech Research and Development Program (“863”program), Study on System Development for Virtual Car Body Oriented to Innovation Design, PI
(9) 2005-2006 Sub-Project of National High-Tech Research and Development Program (“863”program), “Body Lightweight of CHERY T11”, PI
(10) 2004-2006 Sub-Project of National High-Tech Research and Development Program (“863”program), “Research and Development of High-Speed Maglev Vehicle Body”, PI
(11) 2006-2010 Introducing Intelligence Program of Higher Education Subject Foundation “Design and Manufacturing of Digital Auto”, PI
(12) 2000-2002 NSFC Oversea Scholar Cooperation projects, “Manufacturing Quality Control of Car Body (Application of 2mm Project on the Car Industry of China)” , Second PI
(13) 2002-2004 National Natural Science Foundation of China (NSFC) project, “State Space Modeling and Tolerance synthesis for Stream of Variation of Flexible Sheet Assembly”, PI
(14) 1999-2002 Shanghai Volkswagen Co., Ltd., “Study on Manufacturing Quality Control Technology of Car Body”, PI (12) 2006-2008 Major Science and Technology Key Program of Shanghai, “Development and Application of Continuous Annealing Rapid Cooling Technology and Auto Advanced High Strength Steel”, Second PI
(15) 2007-2010 National High-Tech Research and Development Program (“863”program), “Innovation Design System and Industrialization Application of Auto Body based on Knowledge Driven Technologies”, Second PI
(16) 2006-2009, Major Science and Technology Key Program of Shanghai, “Development of HaiYU Model-506 Car of Shanghai Maple Co., Ltd.”, Second PI
(17) 2003-2008, Maxpower Tool Group Cooperation of Shandong, “Manufacturing Quality Control of Tool Product and its Management Information System”, PI
(18) 2000-2001, Shanghai GM, “Study on Dimension Precision Control of Body Manufacturing for BUICK W-Car, GL8 and S-Car”, PI

BOOkS
Lin ZQ, Lean Forming Technology for Auto Sheets, China Machine Press, 2009
Lin ZQ, Manufacturing Quality Control Technology of Auto-Body, China Machine Press, 2005
Lin ZQ, Stamping Simulation on Auto-Body Panels, China Machine Press, 2004

REPRESENTATIVE PUBLICATIONS
[1] Hu M, Lin ZQ, Lai XM, Ni J. Simulation and analysis of assembly processes considering compliant, non-ideal parts and tooling variations. International Journal of Machine Tools and Manufacture, 2001, 41(15): 2233-2243.
[2] Liu DA; Lai XM; Ni J; Peng LF; Lan SH; Lin ZQ. Robust design of assembly parameters on membrane electrode assembly pressure distribution. Journal of Power Sources 2007, 172 (2), 760-767.
[3] Li YB, Lin ZQ, Hu SJ, Chen GL. Numerical analysis of magnetic fluid dynamics behaviors during resistance spot welding. Journal of Applied Physics, 2007, 101(5): 053506.
[4] Dan WJ, Zhang WG, Li SH, Lin ZQ. A model for strain-induced martensitic transformation of TRIP steel with strain rate. Computational Materials Science. 2007, 40(1): 101-107.
[5] Lin ZQ, Wang WR, Chen GL, A new strategy to optimize variable blank holder force towards improving the forming limits of aluminum sheet metal forming. Journal of Materials Processing Technology, 2007, 183(2-3): 339-346.
[6] Lai XM, Tian ZQ, Lin ZQ. A simplified method for optimal sensor distribution for process fault diagnosis in multistation assembly processes. Transactions of the ASME: Journal of Manufacturing Science and Engineering, 2008, 130(5): 051002
[7] Li HT; Lai XM; Fu BS; Li CF; Lin ZQ. A finite element model for micro machining considering size effect of material behaviour and tool geometry. International Journal of Materials & Product Technology 2008, 31 (2-4), 339-353.
[8] Peng LF; Mai JM; Hu P; Lai XM; Lin ZQ. Optimum design of the slotted-interdigitated channels flow field for proton exchange membrane fuel cells with consideration of the gas diffusion layer intrusion. Renewable Energy 2011, 36 (5), 1413-1420.
[9] 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, 2011, 211(12): 2012-2021.
[10] Mai JM, Peng LF, Lin ZQ, Lai XM. Experimental study of electrical resistivity and flow stress of stainless steel 316L in electroplastic deformation. Materials Science and Engineering: A, 2011, 528(10-11): 3539-3544.
[11] Li SH, Chen XF, Kong QS, Yu ZQ, Lin ZQ. Study on formability of tube hydroforming through elliptical die inserts. Journal of Materials Processing Technology, 2012, 212(9): 1916-1924.
[12] Dan WJ, Lin ZQ, Li SH, Zhang WG. Study on the mixture strain hardening of multi-phase steels. Materials Science and Engineering: A, 2012, 552: 1-8
[13] Li YB, Li YT, Shen Q, Lin ZQ. Magnetically Assisted Resistance Spot Welding of Dual-Phase Steel. Welding Journal, 2013, 92, 124s-132s.
[14] Mai JM; Peng LF; Lai XM; Lin ZQ. Electrical-assisted embossing process for fabrication of micro-channels on 316L stainless steel plate. Journal of Materials Processing Technology 2013, 213 (2), 314-321.
[15] Chen GL, Wang H, Lin ZQ. Determination of the Identifiable Parameters in Robot Calibration Based on the POE Formula. IEEE Transactions on Robotics, 2014, 30(5): 1066-1077.
[16] Peng LF; Mai JM; Jiang TH; Lai XM; Lin ZQ. Experimental investigation of tensile properties of SS316L and fabrication of micro/mesochannel features by electrical-assisted embossing process. Journal of Micro and Nano-Manufacturing 2014, 2 (2).
[17] Ma YW, Li YB, Hu W, Lou M, Lin ZQ, Modeling of friction self-piercing riveting (F-SPR) of aluminum to magnesium, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2016,138(3), 061007
[18] Lei HY, Li YB, E. Carlson Blair, Lin ZQ, Microstructure and Mechanical Performance of CMT Spot Joints of AA6061-T6 To Galvanized DP590 Using Edge Plug Welding Mode, Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2016, 138 (4), 071009
[19] He JY; Wang H; Peng LF; Yi PY; Lai XM; Lin ZQ. Investigation of springback behavior and process control for stamping of ring-shaped workpiece. Journal of Shanghai Jiaotong University (Science) 2017, 22 (4), 385-94.
[20] Deng, Y.; Peng, L.; Lai, X.; Fu, M.; Lin, Z. Constitutive modeling of size effect on deformation behaviors of amorphous polymers in micro-scaled deformation. International Journal of Plasticity 2017, 89, 197-222.
[21] Lin Z Q, Xi L F, Jiang J D, et al. Development strategies for the quality and brand of China’s manufacturing industry [J]. Strategic Study of CAE, 2017, 19(3): 20–28
[22] Li SH, He J, Gu B, Zeng Danielle, Xia Z. Cedric, Zhao YX, Lin ZQ, Anisotropic fracture of advanced high strength steel sheets: Experiment and theory, International Journal of Plasticity, 2018, 103: 95-118
[23] Lin Z Q, Zhao Y X, Pan E S. Development strategies for improving manufacturing quality in China’s automobile industry [J]. Strategic Study of CAE, 2018, 20(1): 45–51.
[24] Deng, Y.; Wang, J.; Yi, P.; Peng, L.; Lai, X.; Lin, Z. Numerical Studies on Size Effect Behaviors of Glassy Polymers Based on Strain Gradient Elastoviscoplastic Model. Journal of Applied Mechanics 2019, 86 (2), 021001.
[25] Gu B, He J, Li SH, Lin ZQ. Anisotropic fracture modeling of sheet metals: From in-plane to out-of-plane[J]. International Journal of Solids and Structures, 2020, 182-183112-140.
[26] Zhang, W.; Gao, J.; Deng, Y.; Peng, L.; Yi, P.; Lai, X.; Lin, Z. Tunable Superhydrophobicity from 3D Hierarchically Nano-Wrinkled Micro-Pyramidal Architectures. Advanced Functional Materials 2021, 31 (24).
[27] Zhu, Y.; Giuntoli, A.; Hansoge, N.; Lin, Z.; Keten, S. Scaling for the inverse thickness dependence of specific penetration energy in polymer thin film impact tests. Journal of the Mechanics and Physics of Solids 2022, 161, 104808.
[28] Lin Z Q, Xi L F, Xia T B, et al, Development of Technology System for High-Quality Manufacturing in China [J]. Strategic Study of CAE, https://kns.cnki.net/kcms/detail/11.4421.G3.20220407.1256.002.html

[1] Wang PC, Lin ZQ, Lai XM, Zhang YS, Chen GL, Samuel P. Marin. Online weld inspection and repair method for resistance welding and weld-bonding, US Patent No. US8,803,024 B, Aug. 12, 2014
[2] Wang PC, Lin ZQ, Lai XM, Zhang YS, Chen GL. Method and apparatus for inspecting adhesive quality, US Patent No. US8,878,093 B2, Nov. 4, 2014
[3] Lin ZQ, Lai XM, Zhang YZ, Chen GL, Lian J, Digital sealing sample method for white body, P.R. China Patent No. CN-1141643-C, Mar. 10, 2004
[4] Lin ZQ, Li SH, Xu F, Liu G, Bao YX, Hybrid optimization design method for deep drawing bars, P.R. China Patent No. CN-1181938-C, Dec. 29, 2004
[5] Lin ZQ, Li YZ, Liu SP, Wang H, Lai XM, Chu GP, Fu BS, Flexible gage for stamping thin wall parts with large complex curved surface, P.R. China Patent No. CN-1300545-C, Feb. 14, 2007
[6] A flexible device for multi-point positioning and clamping of thin wall parts with three-dimensional surface, P.R. China Patent No. CN-1317107-C, May. 23, 2007
[7] Lin ZQ, Chen GL, Jin H, Hou XA, Lai XM, Quick clamping mechanism for clamping thin plate parts, P.R. China Patent No. CN-1330461-C, Aug. 8, 2007
[8] Lai XM, Lan SH, Ni J, Lin ZQ, Peng LF, Liu DA, Combined integral bipolar plate for proton exchange membrane fuel cell, P.R. China Patent No. CN-100392895-C, June. 4, 2008
[9] Ni J, Lai XM, Lan SH, Lin ZQ, Peng LF, Liu DA, Fabrication method of metal bipolar plate for proton exchange membrane fuel cell based on roller forming, P.R. China Patent No. CN-100423331-C, Oct. 1, 2008
[10] Lin ZQ, Lai XM, Wang WR, Li SH, Hou B, Process optimization system for improving manufacturing quality stability of automobile panels, P.R. China Patent No. CN-101493858-B, Feb. 26, 2009
[11] Lai XM, Ni J, Lan SH, Peng LF, Hu P, Lin ZQ, Chen GL, Proton exchange membrane fuel cell bipolar plate based on sheet metal stamping, P.R. China Patent No. CN-100466351-C, Mar. 4, 2009
[12] Lai XM, Yi PY, Ni J, Lin ZQ, Peng LF, Liu DA, Lan SH, Hu P, Fabrication method of proton exchange membrane fuel cell stack, P.R. China Patent No. CN-100492745-C, May. 27, 2009
[13] Lai XM, Hu P, Peng LF, Lin ZQ, Ni J, Liu DA, Mai JM, Proton exchange membrane fuel cell bipolar plate formed by metal sheet, P.R. China Patent No. CN-100595957-C, Mar. 24, 2010
[14] Lin ZQ, Chen GL, Yu ZQ, Zhao YX, Hou YK, A method for simulating the surface defects of automobile sheet metal, P.R. China Patent No. CN-1818606-B, May. 12, 2010
[15] Lin ZQ, Lai XM, Wang WR, Li SH, Hou B. Process Optimization System for Improving Quality Robustness of the Auto Panels, P.R. China Patent No. CN-101493858-B, July 28, 2010
[16] Mai JM, Peng LF, Lai XM, Ni J, Lin ZQ, Multichannel snaking flow field structure of proton exchange membrane fuel cell with bipolar plate, P.R. China Patent No. CN-101465435-B, Nov. 3, 2010
[17] Lin ZQ, Lai XM, Yu ZQ, Xu XH, Wu ZG, Test of tube forming limit curve in hydraulic bulging process, P.R. China Patent No. CN-101285749-B, Dec. 1, 2010
[18] Peng LF, Yi PY, Lai XM, Ni J, Lin ZQ, Composite manufacturing method of proton exchange membrane fuel cell bipolar plate and membrane electrode assembly, P.R. China Patent No. CN-101552342-C, Dec. 29, 2010
[19] Peng LF, Qiu DK, Yi PY, Lai XM, Lin ZQ, Automatic Assembly equipment for Fuel Cell Stack, P.R. China Patent No. CN-102157747-B, July 3, 2013
[20] Yu ZQ, Lin ZQ, Liu CX, Chen XF, Kong QS, The design method of the loading track of the new type stretch-bending machine, P.R. China Patent No. CN-102366770-B, Nov. 20, 2013
[21] Lai XM, Xu ZT, Peng LF, Lin ZQ, Ni J, Electric current assisted pressure welding device for ultra-thin metal bipolar plate of fuel cell and method thereof, P.R. China Patent No. CN-102049601-B, July. 2, 2014

NATIONAL AND INTERNATIONAL COMMITTEES
2021-Present President, Chinese Mechanical Engineering Society
2019-present Director, National Science and Technology Medium- and Long-Term Planning Expert Group in Strategic Research
2017-Present Chairman, Chinese Quality Research and Education Alliance
2014-Present Director, Collaborative Innovation Center for Advanced Ship and Deep-Sea Exploration, Ministry of Education, China
2014-Present Vice President, Society of Automotive Engineers of China (SAE China)
2014-Present Vice President, China's Society of Naval Architecture and Marine Engineering
2012-Present Director of Expert Committee of Manufacture science of 973 Program of the Chinese Ministry of Science and Technology (MOST), China
2011-2021 Vice President, Chinese Mechanical Engineering Society (CMES)
2011-Present Chairman of Academic Committee of State Key Laboratory of Development and Application of Auto-Steel, China
2006-2012 Member of Advisory Committee of College of Engineering, University of Michigan, Ann Arbor, USA
2003-Present Member of Mechanical Engineering in State Council Academic Degree Committee, China

EDITORIAL BOARD OF PROFESSIONAL JOURNALS
2018-Present, Editorial Committee Director, Chinese Journal of Plasticity Engineering
2018-Present, member of Editorial Board, International Journal of Lightweight Materials and Manufacture
2010-Present, Member of Editorial Board , Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, UK
2006-Present, Member of Editorial Board International, Journal of Sustainable Design, Germany
2005-2011, Associate Editor,Trans. of the ASME: Journal of Manufacturing Science and Engineering, USA

(1) Academician, Chinese Academy of Engineering, 2011
(2) National Science and Technology Progress Award (2nd Prize, Rank 1) State Council, China, 2011
(3) National Science and Technology Progress Award (2nd Prize, Rank 1) State Council, China, 2005
(4) National Science and Technology Progress Award (2nd Prize, Rank 1) State Council, China, 2002
(5) Chang Jiang Scholars Achievement Award in Engineering Ministry of Education, China, 2009
(6) The Prize for Scientific and Technological Innovations of Ho Leung Ho Lee Foundation Ho Leung Ho Lee Foundation (Hong Kong), 2006
(7) Chiang Chen Technology Achievement Awards Chiang Industrial Charity Foundation (Hong Kong), 2003
(8) GM Foundation-NSFC Science and Technology Achievement Award in China (1st Prize) GM Foundation Committee, 2003
(9) The A. F. Divas Sliver Medal Award for the Excellence of a Paper in the Field of Machine Design entitled “Comparison of the resistance spot weldability of AA5754 and 6022 Aluminum to steels” American Welding Society, 2021