Structural Dimension Optimization of Robotic Belt Grinding System for Grinding Workpieces with Complex Shaped Surfaces Based on Dexterity Grinding Space
Author:
Publisher
Elsevier BV
Subject
Mechanical Engineering,Aerospace Engineering
Reference21 articles.
1. Present status and development trend of abrasive belt grinding technique for blade profile;Zhu;Aeronautical Manufacturing Technology,2007
2. Actuator gain distributions to analytically meet specified performance capabilities in serial robot manipulators;Rios;Journal of Mechanical Design,2009
3. Motion control of the flexible manipulator via controllable local degrees of freedom;Bian;Nonlinear Dynamics,2009
4. Optimal control of the flexible link manipulator with controllable local degrees of freedom;Bian;Chinese Journal of Mechanical Engineering,2008
5. Vibration reduction of open-chain flexible manipulators by optimizing independent motions of branch links;Bian;Chinese Journal of Aeronautics,2008
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2. Robotic grinding of complex components: A step towards efficient and intelligent machining – challenges, solutions, and applications;Robotics and Computer-Integrated Manufacturing;2020-10
3. Modeling, planning, and control of robotic grinding on free-form surface using a force-controlled belt grinding tool;Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science;2020-06-12
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