Abstract
In the current paper, cutting parameters during turning of AISI 304 Austenitic Stainless Steel are studied and optimized using Response Surface Methodology (RSM) and the desirability approach. The cutting tool inserts used in this work were the CVD coated carbide. The cutting speed (vc), the feed rate (f) and the depth of cut (ap) were the main machining parameters considered in this study. The effects of these parameters on the surface roughness (Ra), cutting force (Fc), the specific cutting force (Kc), cutting power (Pc) and the Material Removal Rate (MRR) were analyzed by ANOVA analysis.The results showed that f is the most important parameter that influences Ra with a contribution of 89.69 %, while ap was identified as the most significant parameter (46.46%) influence the Fc followed by f (39.04%). Kc is more influenced by f (38.47%) followed by ap (16.43%) and Vc (7.89%). However, Pc is more influenced by Vc (39.32%) followed by ap (27.50%) and f (23.18%).The Quadratic mathematical models, obtained by the RSM, presenting the evolution of Ra, Fc, Kc and Pc based on (vc, f, and ap) were presented. A comparison between experimental and predicted values presents good agreements with the models found.Optimization of the machining parameters to achieve the maximum MRR and better Ra was carried out by a desirability function. The results showed that the optimal parameters for maximal MRR and best Ra were found as (vc = 350 m/min, f = 0.088 mm/rev, and ap = 0.9 mm).
Highlights
The AISI 304 austenitic stainless steel is an alloy having strategic qualities such as good corrosion resistance, a good formability and non-magnetic properties
The results showed that the optimal parameters for maximal Material Removal Rate (MRR) and best Ra were found as
In order to develop the mathematical model based on Response Surface Methodology (RSM), the L27 ( 313 ) Taguchi standard orthogonal array is adopted as the experimental design method
Summary
The AISI 304 austenitic stainless steel is an alloy having strategic qualities such as good corrosion resistance, a good formability and non-magnetic properties. The optimization of dry turning parameters of two different grades of nitrogen alloyed duplex stainless steel by using Taguchi method, has been presented by Selvaraj et al [2] and they find that the feed rate is the more significant parameter influencing the surface roughness and cutting force. Krolczyk et al [9] in their studies on dry turning of Duplex stainless steel with coated carbide tools have shown using RSM method that the feed rate is the main factor influencing the surface roughness. Investigated the machining performance indicators (tool wear, surface roughness, cutting zone temperature and force) during hard turning of super duplex stainless steel using uncoated carbide tool. A complementary confirmation test was carried out to evaluate the predicted models
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