Fourth order torque prediction model in end milling

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Authors

Kadirgama, K.
Noor, M.M.
Rahman, M.M.
Bakar, Rosli A.
Abou-El-Hossein, Khaled A.

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Asian Network for Scientific Information

Abstract

This study presents the development of mathematical models for torque in end-milling of AISI 618. Response Surface Method (RSM) was used to predict the effect of torque in the end-milling. The relationship between the manufacturing process factors including the cutting speed, feed rate, axial depth and radial depth with the torque can be developed. The effect of the factors can be investigated from the equation developed for first order to fourth order model. The acquired results show that the torque increases with decreases of the cutting speed and increases the feed rate, axial depth and radial depth. It found that the second order is more accurate based on the analysis of variance (ANOVA) and the predicted torque results is closely match with the experimental results. Third- and fourth-order model generated for the response to investigate the 3 and 4-way interaction between the factors. It’s found less significant for the variables.

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Keywords

End milling, Response surface method, Cutting speed

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Citation

Kadirgama, K, Noor, MM, Rahman, MM, Bakar, RA & Hossein, AE 2009, 'Fourth order torque prediction model in end milling', Journal of Applied Sciences, vol. 9, no. 13, pp. 2431-2437. [http://www.scialert.net/jindex.php?issn=1812-5654]