论文信息 - Application of Taguchi method in the optimization of end milling parameters

Application of Taguchi method in the optimization of end milling parameters

Abstract This paper outlines the Taguchi optimization methodology, which is applied to optimize cutting parameters in end milling when machining hardened steel AISI H13 with TiN coated P10 carbide insert tool under semi-finishing and finishing conditions of high speed cutting. The milling parameters evaluated are cutting speed, feed rate and depth of cut. An orthogonal array, signal-to-noise (S/N) ratio and Pareto analysis of variance (ANOVA) are employed to analyze the effect of these milling parameters. The analysis of the result shows that the optimal combination for low resultant cutting force and good surface finish are high cutting speed, low feed rate and low depth of cut. Using Taguchi method for design of experiment (DOE), other significant effects such as the interaction among milling parameters are also investigated. The study shows that the Taguchi method is suitable to solve the stated problem with minimum number of trials as compared with a full factorial design.

[1] Y. S. Tarng,et al. Design optimization of cutting parameters for turning operations based on the Taguchi method , 1998 .

[2] P. K. Philip,et al. Built-up edge phenomenon in machining steel with carbide , 1971 .

[3] Resit Unal,et al. TAGUCHI APPROACH TO DESIGN OPTIMIZATION FOR QUALITY AND COST: AN OVERVIEW , 1990 .

[4] Chun Zhang,et al. Robust design of assembly and machining tolerance allocations , 1998 .

[5] Tsann Lin. Experimental design and performance analysis of TiN-coated carbide tool in face milling stainless steel , 2002 .

[6] K. Tsui. Modeling and analysis of dynamic robust design experiments , 1999 .

[7] Suat Tanaydin. Robust Design and Analysis for Quality Engineering , 1996 .

[8] Janez Kopac,et al. Optimal machining parameters for achieving the desired surface roughness in fine turning of cold pre-formed steel workpieces , 2002 .

[9] Madhan Shridhar Phadke,et al. Quality Engineering Using Robust Design , 1989 .

[10] George-Christopher Vosniakos,et al. Prediction of surface roughness in CNC face milling using neural networks and Taguchi's design of experiments , 2002 .

[11] Huaizhong Li,et al. Milling force prediction using a dynamic shear length model , 2002 .

[12] C. Su,et al. Multi-response robust design by principal component analysis , 1997 .