Optimization of the Machining parameter of LM6 Alminium alloy in CNC Turning using Taguchi method

t. Due to widespread use of highly automated machine tools in the industry,
manufacturing requires reliable models and methods for the prediction of output
performance of machining process. In machining of parts, surface quality is one of the most
specified customer requirements. In order for manufactures to maximize their gains from
utilizing CNC turning, accurate predictive models for surface roughness must be
constructed. The prediction of optimum machining conditions for good surface finish plays
an important role in process planning. This work deals with the study and development of a
surface roughness prediction model for machining LM6 aluminum alloy. Two important
tools used in parameter design are Taguchi orthogonal arrays and signal to noise ratio
(S/N).Speed, feed, depth of cut and coolant are taken as process parameter at three levels. Taguchi's parameters design is employed here to perform the experiments based on the various level of the chosen parameter. The statistical analysis results in optimum parameter combination of speed, feed, depth of cut and coolant as the best for obtaining good roughness for the cylindrical components. The result obtained through Taguchi is confirmed with real time experimental work.