基本信息Basicinformation
姓名Name:Lai Leijie
学历EducationBackground:Doctorof Engineering
职称ProfessionalTitle:Associateprofessor
职务Post:
研究方向ResearchInterests: Micro/nanopositioning technology and compliant mechanism
学术成果AcademicPublication:
LaiL J, Zhu Z N. Design, modeling and testing of a novel flexure-baseddisplacement amplification mechanism. Sensors and Actuators A:Physical, 2017, 266: 122-129.
LaiL J, Zhou H, Zhu L M. Fabrication of microlens array on siliconsurface using electrochemical wet stamping technique. Applied SurfaceScience, 2016, 364: 442-445.
Lai LJ,Gu G Y,Zhu LM. Design and control of adecoupled two degree offreedom translational parallel micro-positioningstage,Reviewof Scientific Instruments, 2012, 83(4): 045105.
LaiLJ,Zhou H,Du YJ,Li CX,Zhang L,Jiang LM,Zhu LM. Electrochemicalmicromachining with wet stamping: Instrument design and experimentalinvestigation, Precision Engineering, 2014, 38(3): 569-577.
LaiLJ,Zhou H,Du YJ,Zhang J,Jia JC,Jiang LM,Zhu LM,Tian ZW,Tian ZQ,ZhanDP. High precision electrochemical micromachining based on confinedetchant layer technique,Electrochemistry Communications,2013,28(7):135-138.
DingY,Lai L J*. Design and analysis of a displacement amplifier with highload capacity by combining bridge-type and Scott-Russell mechanisms.Review of Scientific Instruments, 2019, 90(6): 065102.
WuH, Lai L J*, Zhang L, et al. A novel compliant XYmicro-positioning stage using bridge-type displacement amplifierembedded with Scott-Russell mechanism. Precision Engineering, 2022,73: 284-295.
WuH T, Lai L J*, Zhu L M. Analytical model andexperimental verification of an elliptical bridge-type compliantdisplacement amplification mechanism. Review of ScientificInstruments, 2021, 92(5): 055109.
WuH, Lai L J*, Zhang L, Zhu L. Fractional order zero phase errortracking control of a novel decoupled 2-DOF compliantmicro-positioning stage. Journal of Micromechanics andMicroengineering, 2021, 31: 105006.
ZhangX, Lai L, Zhang L, et al. Hysteresis and magnetic flux leakage oflong stroke micro/nanopositioning electromagnetic actuator based onMaxwell normal stress. Precision Engineering, 2022. 75: 1-11.
联系方式Contactdetails: lailj@sues.edu.cn. 86-21-67874553
