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Regression Analysis of Electric Discharge Machining Process Parameters Using Multiwall Carbon Nanotube


Affiliations
1 School of Mechanical Engineering, S. R. M. University, Chennai, Tamil Nadu, India
     

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In this paper, Regression model were developed to predict surface roughness in electrical discharge machining (EDM) process. In the development o f predictive models, machining parameters of Pulse current. Pulse on duration, voltage were considered as model variables. For this purpose. Analysis of variance (ANOVA) and F-test were used to check the validity o f regression model and to determine the significant parameter affecting the surface roughness. The purpose is to investigate the superior surface finish can be obtained using multi walled carbon nanotubes in the dielectric. For this purpose Graphite electrode with and without carbon nanotubes in the dielectric is used. Later the tool steel was analyzed and the parameters are optimized using MINITAB 15 software and regression equations are compared with and without multiwall carbon nanotubes.
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  • Regression Analysis of Electric Discharge Machining Process Parameters Using Multiwall Carbon Nanotube

Abstract Views: 187  |  PDF Views: 0

Authors

S. Prabhu
School of Mechanical Engineering, S. R. M. University, Chennai, Tamil Nadu, India
B. K. Vinayagam
School of Mechanical Engineering, S. R. M. University, Chennai, Tamil Nadu, India

Abstract


In this paper, Regression model were developed to predict surface roughness in electrical discharge machining (EDM) process. In the development o f predictive models, machining parameters of Pulse current. Pulse on duration, voltage were considered as model variables. For this purpose. Analysis of variance (ANOVA) and F-test were used to check the validity o f regression model and to determine the significant parameter affecting the surface roughness. The purpose is to investigate the superior surface finish can be obtained using multi walled carbon nanotubes in the dielectric. For this purpose Graphite electrode with and without carbon nanotubes in the dielectric is used. Later the tool steel was analyzed and the parameters are optimized using MINITAB 15 software and regression equations are compared with and without multiwall carbon nanotubes.