Development of a Method to Evaluate the Influence of Inclination Angle Changing Rate on the Surface Roughness and Waviness

A five-axis milling machine is widely used in the machining of products with complex surfaces and geometries. But there is a problem with the quality of the machined surface and machining efficiency. The inclination angle has a significant impact on surface quality as a parameter in 5-axis milling. Based on complex changes in inclination angles, it is necessary to develop a toolpath using CAM software. In this paper, the incline milling method is developed to evaluate the influence of inclination angle changing rate on surface quality of the machined surface. From the surface roughness and waviness data that will be obtained, the effect of difference in inclination angle changing rate can be used to evaluate the surface roughness and waviness of the machined surface so that the surface roughness and waviness characteristics are in line with the desired production quality. In this method, the inclination angle is formed between the tool and the workpiece, allowing more than one inclination model to be made on one drive surface based on a surface contour. The research results show that the method developed will be very useful in its application to the production process of parts with sculpted surfaces. Using this method, the influence of the inclination angle changing rate on the surface roughness and waviness of the machine surface can be evaluated, and the waviness and roughness of the sculpture surface can be controlled by choosing the right angle of inclination.