A Study on the Beech Wood Machining Parameters Optimization Using Response Surface Methodology

The surface quality of wooden products is of great importance to production industries. The best surface quality requires a thorough understanding of the cutting parameters' effects on the wooden material. In this paper, response surface methodology, which is one of the conventional statistical methods in experiment design, has been used to design experiments and investigate the effect of different machining parameters as feed rate, spindle speed, step over, and depth of cut on surface quality of the beech wood. The mathematical model of the examined parameters and the surface roughness have also been obtained by the method. Finally, the optimal machining parameters have been obtained to achieve the best quality of the machined surface, which reduced the surface roughness up to 4.2 (mu m). Each of the machining parameters has a considerable effect on surface quality, although it is noted that the feed rate has the greatest effect.