How to cite this paper
Nayak, I & Rana, J. (2016). Selection of a suitable multiresponse optimization technique for turning operation.Decision Science Letters , 5(1), 129-142.
Refrences
Baradie EI, M.A. (1996). Cutting fluids: part I characterization. Journal of Material Processing Technology, 56, 786–797.
Davim, J. P. (2003). Design of optimization of cutting parameters for turning metal matrix composites based on the orthogonal arrays. Journal of Materials Processing Technology, 132(1), 340-344.
Gauri, S. K., & Chakraborty, S. (2009). Optimization of multiple responses for WEDM processes using weighted principal components. The International Journal of Advanced Manufacturing Technology, 40(11-12), 1102-1110.
Gunay, M., & Yucel, E. (2013). Application of Taguchi method for determining optimum surface roughness in turning of high-alloy white cast iron. Measurement, 46(2), 913-919.
Hascal?k, A., & Caydas, U. (2008). Optimization of turning parameters for surface roughness and tool life based on the Taguchi method. The International Journal of Advanced Manufacturing Technology, 38(9-10), 896-903.
Jeyapaul, R., Shahabudeen, P., & Krishnaiah, K. (2006). Simultaneous optimization of multi-response problems in the Taguchi method using genetic algorithm. The International Journal of Advanced Manufacturing Technology, 30(9-10), 870-878.
Kackar, R.N. (1985). Off-line quality control, parameter design and the Taguchi method. Journal of Quality Technology, 17, 176–188.
Kalpakjian, S., & Schmid, S.R. (2001). Manufacturing Engineering and Technology, International, Fourth ed. Prentice Hall Co., New Jersey, 536-681.
Liao, H. C. (2006). Multi-response optimization using weighted principal component. The International Journal of Advanced Manufacturing Technology, 27(7-8), 720-725.
Montgomery DC. (2001). Design and Analysis of Experiments. 5th ed., Wiley, Singapore.
Nian, C. Y., Yang, W. H., & Tarng, Y. S. (1999). Optimization of turning operations with multiple performance characteristics. Journal of Materials Processing Technology, 95(1), 90-96.
Phadke, M. S. (1989). Quality Engineering Using Robust Design, PTR Prentice-Hall. Inc., Englewood Cliffs, NJ.
Rao, C. J., Rao, D. N., & Srihari, P. (2013). Influence of cutting parameters on cutting force and surface finish in turning operation. Procedia Engineering, 64, 1405-1415.
Sahin, Y., & Motorcu, A. R. (2008). Surface roughness model in machining hardened steel with cubic boron nitride cutting tool. International Journal of Refractory Metals and Hard Materials, 26(2), 84-90.
Sardinas, R. Q., Santana, M. R., & Brindis, E. A. (2006). Genetic algorithm-based multi-objective optimization of cutting parameters in turning processes. Engineering Applications of Artificial Intelligence, 19(2), 127-133.
Shiau GH. (1990). A study of the sintering properties of iron ores using the Taguchi & apos; s parameter design. Journal of Chinese Statistical Association, 28, 253–275.
Suhail, A. H., Ismail, N., Wong, S. V., & Jalil, N. A. (2012). Surface roughness identification using the grey relational analysis with multiple performance characteristics in turning operations. Arabian Journal for Science and Engineering, 37(4), 1111-1117.
Tai, C. Y., Chen, T. S., & Wu, M. C. (1992). An enhanced Taguchi method for optimizing SMT processes. Journal of Electronics Manufacturing, 2(03), 91-100.
Tong, L. I., Chen, C. C., & Wang, C. H. (2007). Optimization of multi-response processes using the VIKOR method. The International Journal of Advanced Manufacturing Technology, 31(11-12), 1049-1057.
Tzeng, C. J., Lin, Y. H., Yang, Y. K., & Jeng, M. C. (2009). Optimization of turning operations with multiple performance characteristics using the Taguchi method and Grey relational analysis. Journal of Materials Processing Technology, 209(6), 2753-2759.
Davim, J. P. (2003). Design of optimization of cutting parameters for turning metal matrix composites based on the orthogonal arrays. Journal of Materials Processing Technology, 132(1), 340-344.
Gauri, S. K., & Chakraborty, S. (2009). Optimization of multiple responses for WEDM processes using weighted principal components. The International Journal of Advanced Manufacturing Technology, 40(11-12), 1102-1110.
Gunay, M., & Yucel, E. (2013). Application of Taguchi method for determining optimum surface roughness in turning of high-alloy white cast iron. Measurement, 46(2), 913-919.
Hascal?k, A., & Caydas, U. (2008). Optimization of turning parameters for surface roughness and tool life based on the Taguchi method. The International Journal of Advanced Manufacturing Technology, 38(9-10), 896-903.
Jeyapaul, R., Shahabudeen, P., & Krishnaiah, K. (2006). Simultaneous optimization of multi-response problems in the Taguchi method using genetic algorithm. The International Journal of Advanced Manufacturing Technology, 30(9-10), 870-878.
Kackar, R.N. (1985). Off-line quality control, parameter design and the Taguchi method. Journal of Quality Technology, 17, 176–188.
Kalpakjian, S., & Schmid, S.R. (2001). Manufacturing Engineering and Technology, International, Fourth ed. Prentice Hall Co., New Jersey, 536-681.
Liao, H. C. (2006). Multi-response optimization using weighted principal component. The International Journal of Advanced Manufacturing Technology, 27(7-8), 720-725.
Montgomery DC. (2001). Design and Analysis of Experiments. 5th ed., Wiley, Singapore.
Nian, C. Y., Yang, W. H., & Tarng, Y. S. (1999). Optimization of turning operations with multiple performance characteristics. Journal of Materials Processing Technology, 95(1), 90-96.
Phadke, M. S. (1989). Quality Engineering Using Robust Design, PTR Prentice-Hall. Inc., Englewood Cliffs, NJ.
Rao, C. J., Rao, D. N., & Srihari, P. (2013). Influence of cutting parameters on cutting force and surface finish in turning operation. Procedia Engineering, 64, 1405-1415.
Sahin, Y., & Motorcu, A. R. (2008). Surface roughness model in machining hardened steel with cubic boron nitride cutting tool. International Journal of Refractory Metals and Hard Materials, 26(2), 84-90.
Sardinas, R. Q., Santana, M. R., & Brindis, E. A. (2006). Genetic algorithm-based multi-objective optimization of cutting parameters in turning processes. Engineering Applications of Artificial Intelligence, 19(2), 127-133.
Shiau GH. (1990). A study of the sintering properties of iron ores using the Taguchi & apos; s parameter design. Journal of Chinese Statistical Association, 28, 253–275.
Suhail, A. H., Ismail, N., Wong, S. V., & Jalil, N. A. (2012). Surface roughness identification using the grey relational analysis with multiple performance characteristics in turning operations. Arabian Journal for Science and Engineering, 37(4), 1111-1117.
Tai, C. Y., Chen, T. S., & Wu, M. C. (1992). An enhanced Taguchi method for optimizing SMT processes. Journal of Electronics Manufacturing, 2(03), 91-100.
Tong, L. I., Chen, C. C., & Wang, C. H. (2007). Optimization of multi-response processes using the VIKOR method. The International Journal of Advanced Manufacturing Technology, 31(11-12), 1049-1057.
Tzeng, C. J., Lin, Y. H., Yang, Y. K., & Jeng, M. C. (2009). Optimization of turning operations with multiple performance characteristics using the Taguchi method and Grey relational analysis. Journal of Materials Processing Technology, 209(6), 2753-2759.