Abstract
Abstract. Elliptical vibration cutting (EVC), as a precision machining technology, is used in many applications. In precision machining, control accuracy plays an essential role in improving the machinability of difficult-to-machine materials. To improve the control accuracy, dynamic and static characteristics of the system need to be tuned to obtain the optimal parameters. In this paper, we use a glowworm algorithm with an improved adaptive step size to tune the parameters of a robust adaptive fuzzy controller. We then obtain the optimal controller parameters through simulation. The optimal solution of the controller parameters is then applied to a 3D EVC system model for simulation and closed-loop testing experiments. The results indicate that a good agreement between the ideal curve and the tracking signal curve verifies the optimality of the controller parameters. Finally, under certain cutting conditions, the workpieces of three different materials are cut with two different cutting methods. The study revealed that the surface roughness value is reduced by 20 %–32 %, which further verifies the effectiveness of the optimal controller's parameters.
Highlights
Elliptical vibration cutting (EVC) technology was first proposed by Shamoto in 1984 (Ma et al, 2004)
Under the process of 3D EVC, obvious scratches and pits appeared on the surface morphology of the workpiece, but this phenomenon is avoided during the processing of 3D EVC under the control of the robust adaptive fuzzy controller improved by IASGSO
To improve dynamic and static characteristics of the system and achieve an ideal control accuracy in the process, this paper tunes the parameters of the 3D EVC robust adaptive fuzzy controller and finds and verifies the optimal solution through simulation and experiment
Summary
Elliptical vibration cutting (EVC) technology was first proposed by Shamoto in 1984 (Ma et al, 2004). Y. Du et al.: Parameter tuning of robust adaptive fuzzy controller linear optimization and obtain the optimal parameter of the controller in the real closed loop. The above article has tuned the controller parameters and further verified the optimality of the controller parameters through simulations and experiments, it has not been applied in the machining experiment, and the effectiveness of the optimal parameters of the controller cannot be obtained more intuitively. In this paper, based on the nonlinear Wiener model of 3D EVC, an improved adaptive step size glowworm swarm optimization algorithm (IASGSO) is used to tune the parameters of the robust adaptive fuzzy controller and obtain the optimal solution of the controller parameters. The optimal solution of the controller parameters is applied to the 3D EVC device system model for simulation and closed-loop test experiments. The effectiveness of the control system is verified by analyzing and comparing the surface morphology and surface roughness values of the produced samples
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