How to cite this paper
Kumar, N & Kumar, P. (2016). Influence of machining parameters on surface roughness and dry friction.Engineering Solid Mechanics, 4(3), 109-116.
Refrences
Abdullah, A. B., Chia, L. Y., & Samad, Z. (2010). The effect of feed rate and cutting speed to surface roughness. Asian Journal of Scienti?c Research, 3(4), 278-287.
Das, S. R., Kumar, A., & Dhupal, D. (2013). Effect of machining parameters on surface roughness in machining of hardened aisi 4340 steel using coated carbide inserts. International Journal of Innovation and Applied Studies, 2(4), 445-453.
Davim, J. P. (2001). A note on the determination of optimal cutting conditions for surface finish obtained in turning using design of experiments. Journal of Materials Processing Technology, 116(2), 305-308.
Fnides, B., Aouici, H., & Yallese, M. A. (2008). Cutting forces and surface roughness in hard turning of hot work steel X38CrMoV5-1 using mixed ceramic. Mechanika, 2(70), 73-78.
Kirby, E. D., Zhang, Z., & Chen, J. C. (2004). Development of an accelerometer-based surface roughness prediction system in turning operations using multiple regression techniques. Journal of Industrial Technology, 20(4), 1-8.
Korkut, I., & Donertas, M. A. (2007). The influence of feed rate and cutting speed on the cutting forces, surface roughness and tool–chip contact length during face milling. Materials & Design, 28(1), 308-312.
Koura, M. M. (1980). The effect of surface texture on friction mechanisms. Wear, 63(1), 1-12.
Kumar, N. S., Shetty, A., Shetty, A., Ananth, K., & Shetty, H. (2012). Effect of spindle speed and feed rate on surface roughness of Carbon Steels in CNC turning. Procedia Engineering, 38, 691-697.
Lalwani, D. I., Mehta, N. K., & Jain, P. K. (2008). Experimental investigations of cutting parameters influence on cutting forces and surface roughness in finish hard turning of MDN250 steel. Journal of Materials Processing Technology, 206(1), 167-179.
Lan, T. S., Lo, C. Y., Wang, M. Y., & Yen, A. Y. (2008). Multi quality prediction model of cnc turning using back propagation network. Information Technology Journal, 7(6), 911-917.
Lee, S. C., & Ren, N. (1996). Behavior of elastic-plastic rough surface contacts as affected by surface topography, load, and material hardness. Tribology Transactions, 39(1), 67-74.
Lou, M. S., Chen, J. C., & Li, C. M. (1998). Surface roughness prediction technique for CNC end-milling. Journal of Industrial Technology, 15(1), 1-6.
?zel, T., Karpat, Y., Figueira, L., & Davim, J. P. (2007). Modelling of surface finish and tool flank wear in turning of AISI D2 steel with ceramic wiper inserts. Journal of Materials Processing Technology, 189(1), 192-198.
Reddy, M. R., Kumar, P. R., & Rao, G. K. M. (2011). Effect of feed rate on the generation of surface roughness in turning. International Journal of Engineering Science and Technology (IJEST), 3(11).
Rodrigues, L. L., Kantharaj, A. N., Kantharaj, B., Freitas, W. R. C., & Murthy, B. R. N. (2012). Effect of cutting parameters on surface roughness and cutting force in turning mild steel. Research Journal of Recent Sciences, 1(10), 19-26.
Selmy, A. I., El-Sonbaty, I., Shehata, F., & Khashaba, U. A. (1989). Some factors affecting the accuracy of turned parts. Scientific Bulletin of the Faculty of Engineering, 24(2), 356-368.
Silva, L. R., Abrao, A. M., Rubio, J. C., & Davim, J. P. (2008). A Note on the Influence of Cutting Speed on Cutting Forces and Surface Finish During Precision Turning of AISI 1045 Steel. Annals of Faculty of Engineering Hunedoara–International Journal of Engineering, 113-118.
Suresh, P. V. S., Rao, P. V., & Deshmukh, S. G. (2002). A genetic algorithmic approach for optimization of surface roughness prediction model. International Journal of Machine Tools and Manufacture, 42(6), 675-680.
Sundaram, R. M., & Lambert, B. K. (1981). Mathematical models to predict surface finish in fine turning of steel. Part I. The International Journal of Production Research, 19(5), 547-556.
Thamma, R. (2008). Comparison between multiple regression models to study effect of turning parameters on the surface roughness. In Proceedings of the 2008 IAJC-JME International Conference ISBN (pp. 978-1).
Vipindas, M. P. (2013). Dr. Govindan P,“Taguchi-Based Optimization of Surface Roughness in CNC Turning Operation”. International Journal of Latest Trends in Engineering and Technology, 2(4), 454-463.
Wang, X., & Feng, C. X. (2002). Development of empirical models for surface roughness prediction in finish turning. The International Journal of Advanced Manufacturing Technology, 20(5), 348-356.
Xiao, L., Rosen, B. G., Amini, N., & Nilsson, P. H. (2003). A study on the effect of surface topography on rough friction in roller contact. Wear, 254(11), 1162-1169.
Das, S. R., Kumar, A., & Dhupal, D. (2013). Effect of machining parameters on surface roughness in machining of hardened aisi 4340 steel using coated carbide inserts. International Journal of Innovation and Applied Studies, 2(4), 445-453.
Davim, J. P. (2001). A note on the determination of optimal cutting conditions for surface finish obtained in turning using design of experiments. Journal of Materials Processing Technology, 116(2), 305-308.
Fnides, B., Aouici, H., & Yallese, M. A. (2008). Cutting forces and surface roughness in hard turning of hot work steel X38CrMoV5-1 using mixed ceramic. Mechanika, 2(70), 73-78.
Kirby, E. D., Zhang, Z., & Chen, J. C. (2004). Development of an accelerometer-based surface roughness prediction system in turning operations using multiple regression techniques. Journal of Industrial Technology, 20(4), 1-8.
Korkut, I., & Donertas, M. A. (2007). The influence of feed rate and cutting speed on the cutting forces, surface roughness and tool–chip contact length during face milling. Materials & Design, 28(1), 308-312.
Koura, M. M. (1980). The effect of surface texture on friction mechanisms. Wear, 63(1), 1-12.
Kumar, N. S., Shetty, A., Shetty, A., Ananth, K., & Shetty, H. (2012). Effect of spindle speed and feed rate on surface roughness of Carbon Steels in CNC turning. Procedia Engineering, 38, 691-697.
Lalwani, D. I., Mehta, N. K., & Jain, P. K. (2008). Experimental investigations of cutting parameters influence on cutting forces and surface roughness in finish hard turning of MDN250 steel. Journal of Materials Processing Technology, 206(1), 167-179.
Lan, T. S., Lo, C. Y., Wang, M. Y., & Yen, A. Y. (2008). Multi quality prediction model of cnc turning using back propagation network. Information Technology Journal, 7(6), 911-917.
Lee, S. C., & Ren, N. (1996). Behavior of elastic-plastic rough surface contacts as affected by surface topography, load, and material hardness. Tribology Transactions, 39(1), 67-74.
Lou, M. S., Chen, J. C., & Li, C. M. (1998). Surface roughness prediction technique for CNC end-milling. Journal of Industrial Technology, 15(1), 1-6.
?zel, T., Karpat, Y., Figueira, L., & Davim, J. P. (2007). Modelling of surface finish and tool flank wear in turning of AISI D2 steel with ceramic wiper inserts. Journal of Materials Processing Technology, 189(1), 192-198.
Reddy, M. R., Kumar, P. R., & Rao, G. K. M. (2011). Effect of feed rate on the generation of surface roughness in turning. International Journal of Engineering Science and Technology (IJEST), 3(11).
Rodrigues, L. L., Kantharaj, A. N., Kantharaj, B., Freitas, W. R. C., & Murthy, B. R. N. (2012). Effect of cutting parameters on surface roughness and cutting force in turning mild steel. Research Journal of Recent Sciences, 1(10), 19-26.
Selmy, A. I., El-Sonbaty, I., Shehata, F., & Khashaba, U. A. (1989). Some factors affecting the accuracy of turned parts. Scientific Bulletin of the Faculty of Engineering, 24(2), 356-368.
Silva, L. R., Abrao, A. M., Rubio, J. C., & Davim, J. P. (2008). A Note on the Influence of Cutting Speed on Cutting Forces and Surface Finish During Precision Turning of AISI 1045 Steel. Annals of Faculty of Engineering Hunedoara–International Journal of Engineering, 113-118.
Suresh, P. V. S., Rao, P. V., & Deshmukh, S. G. (2002). A genetic algorithmic approach for optimization of surface roughness prediction model. International Journal of Machine Tools and Manufacture, 42(6), 675-680.
Sundaram, R. M., & Lambert, B. K. (1981). Mathematical models to predict surface finish in fine turning of steel. Part I. The International Journal of Production Research, 19(5), 547-556.
Thamma, R. (2008). Comparison between multiple regression models to study effect of turning parameters on the surface roughness. In Proceedings of the 2008 IAJC-JME International Conference ISBN (pp. 978-1).
Vipindas, M. P. (2013). Dr. Govindan P,“Taguchi-Based Optimization of Surface Roughness in CNC Turning Operation”. International Journal of Latest Trends in Engineering and Technology, 2(4), 454-463.
Wang, X., & Feng, C. X. (2002). Development of empirical models for surface roughness prediction in finish turning. The International Journal of Advanced Manufacturing Technology, 20(5), 348-356.
Xiao, L., Rosen, B. G., Amini, N., & Nilsson, P. H. (2003). A study on the effect of surface topography on rough friction in roller contact. Wear, 254(11), 1162-1169.