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Hybrid active/passive force control strategy for grinding marks suppression and profile accuracy enhancement in robotic belt grinding of turbine blade.

, , , , и . Robotics Comput. Integr. Manuf., (2021)

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Zhu Dahe

Ming Zhu

Zhiyong Zhu

Suning Zhu

Nianyong Zhu

 

Другие публикации лиц с тем же именем

Robotic grinding of complex components: A step towards efficient and intelligent machining - challenges, solutions, and applications., , , , , , и . Robotics Comput. Integr. Manuf., (2020)A three-stage framework for accurate detection of high-speed train body paint film defects., , , , и . Adv. Eng. Informatics, (2024)A Robotic Belt Grinding Force Model to Characterize the Grinding Depth with Force Control Technology., , , , и . ICIRA (1), том 10984 из Lecture Notes in Computer Science, стр. 287-298. Springer, (2018)Trajectory Planning and Optimization for Robotic Machining Based On Measured Point Cloud., , , , , , , и . IEEE Trans. Robotics, 38 (3): 1621-1637 (2022)Simultaneous Calibration of Multicoordinates for a Dual-Robot System by Solving the AXB = YCZ Problem., , , , , , и . IEEE Trans. Robotics, 37 (4): 1172-1185 (2021)Dynamic Compliant Force Control Strategy for Suppressing Vibrations and Over-Grinding of Robotic Belt Grinding System., , , , , , и . IEEE Trans Autom. Sci. Eng., 21 (3): 4536-4547 (июля 2024)A novel trajectory planning method for robotic deburring of automotive castings considering adaptive weights., , , , и . Robotics Comput. Integr. Manuf., (апреля 2024)Hybrid active/passive force control strategy for grinding marks suppression and profile accuracy enhancement in robotic belt grinding of turbine blade., , , , и . Robotics Comput. Integr. Manuf., (2021)