The cutting tool is one of the most critical elements in the machining process. The tool material should be at least fours times as hard as the work piece material. The development of tool material has been characterized by an increase in wear resistance and thermal resistance. Cutting of hardened Steel is topic of high interest for today’s industrial production and scientific research. Many researchers have investigated the effects of cutting parameters and tool geometry on tool wear, surface roughness, cutting force and surface integrity of work piece.This work is to specify the characteristic behavior of the nano coated carbide tool for different cutting parameter using experimental data and finite elemental method. Here cutting force and temperature   are calculated for different speed, feed and depth of cut with reference to various Experimental data from journals. The tool is to be modeled and analysis is to be carried out using Ansys for determining the tool effective stress, strain and temperature variation at chip tool interface. The Taguchi method is a powerful tool to design optimization for quality parameters. It is used to find the optimal cutting parameters for turning operations. An orthogonal array, the signal-to-noise (S/N) ratio and the analysis of variance (ANOVA) will be employed to investigate the cutting characteristics of AISI 52100 Alloy Steel (En31) using coated carbide cutting tools.

Tags :
Your rating: None Average: 4 (4 votes)

Posted by

Tue, 19/04/2011 - 21:13