Design and Implementation of Nonlinear Force Controllers for Friction Stir Welding Processes
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In Friction Stir Welding FSW processes, force control can be used to achieve good welding quality. This paper presents the systematic design and implementation of FSW force controllers. The axial and path forces are modeled as nonlinear functions of the FSW process parameters i.e., plunge depth, tool traverse rate, and tool rotation speed. Equipment models, which include communication delays, are constructed to relate the commanded and measured actuator signals. Based on the dynamic process and equipment models, nonlinear feedback controllers for the axial and path forces are designed using the Polynomial Pole Placement technique. The controllers are implemented in a Smith Predictor-Corrector structure to compensate for the inherent equipment communication delays and the controller parameters are tuned to achieve the best closed loop response possible given equipment limitations. In the axial force controller implementation, a constant axial force is maintained, even when gaps are encountered during the welding process.
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