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Development of Surface Roughness Prediction Model for Titanium Alloys in Milling


Affiliations
1 Sri Vekateswara College of Engg & Technology, RVS Nagar, Tirupati Rd., Chittoor, AP, India
2 Dept. of Mech. Engg., Jawaharlal Nehru Technological University, Kakinada, India
     

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Surface roughness plays on important role in manufacturing and the product quality depends on the surface roughness. The present work focuses on developing a multiple regression model with intercepts for the prediction of surface roughness of Titanium alloys machined on CNC milling machine. The working parameters, viz. speed, feed and depth of cut and surface roughness as response are considered in this model. The experiments were conducted based on factorial design using Design of Experiments (DOE). The prediction models are developed using Multiple regression techniques with and with out interaction terms of both Linear and Non Linear. The values of surface roughness predicted by this model are then verified with additional experimental results. Experimental results and regression analysis demonstrate that the model developed in this work predicts the surface roughness values with good accuracy.

Keywords

Surface Roughness, Titanium Alloy, Design of Experiments, Linear and Exponential Regression Analysis, Percentage Deviation.
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  • Development of Surface Roughness Prediction Model for Titanium Alloys in Milling

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Authors

P. Nanda Kumar
Sri Vekateswara College of Engg & Technology, RVS Nagar, Tirupati Rd., Chittoor, AP, India
G. Ranga Janardhana
Dept. of Mech. Engg., Jawaharlal Nehru Technological University, Kakinada, India

Abstract


Surface roughness plays on important role in manufacturing and the product quality depends on the surface roughness. The present work focuses on developing a multiple regression model with intercepts for the prediction of surface roughness of Titanium alloys machined on CNC milling machine. The working parameters, viz. speed, feed and depth of cut and surface roughness as response are considered in this model. The experiments were conducted based on factorial design using Design of Experiments (DOE). The prediction models are developed using Multiple regression techniques with and with out interaction terms of both Linear and Non Linear. The values of surface roughness predicted by this model are then verified with additional experimental results. Experimental results and regression analysis demonstrate that the model developed in this work predicts the surface roughness values with good accuracy.

Keywords


Surface Roughness, Titanium Alloy, Design of Experiments, Linear and Exponential Regression Analysis, Percentage Deviation.