代表性论文: | [1] Liangyu Cui, Jingwei Liu, Xuanqi Zhang, Xiaofan Deng. Design and control of a large-stroke piezoelectric micro-gripper based on flexible crank-slider mechanism,Journal of Micromechanics and Microengineering,2026. [2] Liangyu Cui; Haonan Zhu; Xiaofan Deng; Design and Implementation of Flexible Four-Bar-Mechanism-Based Long-Stroke Micro-Gripper, Actuators, 2025, 14(7): 338. [3] Songling Tian; Meirun Gao; Yiyi Fu; Chenkai Fang; Xiaofan Deng; Liangyu Cui*; Design and Experimental Validation of a Flexible-Hinge-Based Manual Mechanism for Micro/Nano-Displacement Scaling, Micromachines, 2026, 17(3): 323. [4] Xiaofan Deng, Haonan Zhu, Junjie Zhong, Liangyu Cui*. Compound control of piezoelectric actuator based on prandtl-ishlinskii model for nanopositioning stage. (2025). IFAC-PapersOnLine, 59(35), 344-349. [5] 崔良玉,钟俊杰,韩建鑫,等.基于压电陶瓷驱动的纳米定位平台复合控制[J].工具技术, 2025, 59(1):95-101. [6] 钟俊杰,崔良玉*,韩建鑫,等.微夹持器夹持力的测量和控制技术研究[J].传感器与微系统, 2025, 44(3):33-36. [7] 崔良玉,钟俊杰,韩建鑫,等.面向软材料搓动夹持的微夹钳设计与分析[J].传感器与微系统,2024,43(12):71-75. [8] 马鹏飞,崔良玉*,钟俊杰,等.单压电陶瓷驱动回转定位平台实验分析[J].压电与声光,2023,45(06):917-921. [9] Ming Zhang, Liangyu Cui* and Jianxin Han, Design of a New Type of Micro Rotating Positioning Platform with Single drive, 2022 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO), Tianjin, China, 2022, pp. 466-469. [10] Liangyu. Cui. Ultrasonic Molding of Polymer Micro Devices. 2019 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO) IEEE, 2019. 授权发明专利(第一发明人) [1] 一种缩小倍数可调的微位移调整机构,ZL202310842639.3 [2] 一种桥式压电驱动直线促动器及控制方法,ZL202010209846.1 [3] 一种基于仿生表面的微操作装置及方法,ZL202011468668.0 [4] 一种具有夹紧拉拔功能的双驱动微纳操作装置及方法,ZL202011468667.6 [5] 一种具有搓动功能的压电微夹钳, ZL201911210658.4 [6] 一种具有夹持拉拔功能的微操作装置及方法,ZL202011468664.2 [7] 一种基于3D打印微流道的微操作装置及方法,ZL202011468665.7 [8] 一种大推力带自锁功能的压电直线促动器及其驱动方法,ZL202010208974.4 |
