How to cite this paper
Majumder, H & Saha, A. (2018). Application of MCDM based hybrid optimization tool during turning of ASTM A588.Decision Science Letters , 7(2), 143-156.
Refrences
Antony, J. (2000). Multi-response optimization in industrial experiments using Taguchi's quality loss function and principal components analysis. Quality and reliability engineering international, 16(1), 3-8.
Brauers, W. K. M., & Zavadskas, E. K. (2006). The MOORA method and its application to privatization in a transition economy. Control and Cybernetics, 35(2), 445.
Brauers, W. K. M., & Zavadskas, E. K. (2009). Robustness of the multi-objective MOORA method with a test for the facilities sector. Technological and Economic Development of Economy, 2, 352-375.
Brauers, W. K. M., Zavadskas, E. K., Peldschus, F., & Turskis, Z. (2008). Multi-objective optimization of road design alternatives with an application of the MOORA method. Proceedings of the 25th International Symposium on Automation and Robotics in Construction, Lithuania, 541-548.
Davim, J. P., Gaitonde, V., & Karnik, S. (2008). Investigations into the effect of cutting conditions on surface roughness in turning of free machining steel by ANN models. Journal of Materials Processing Technology, 205(1), 16-23.
Dey, S., & Chakraborty, S. (2016). A study on the machinability of some metal alloys using grey TOPSIS method. Decision Science Letters, 5(1), 31-44.
Gadakh, V. (2010). Application of MOORA method for parametric optimization of milling process. International Journal of Applied Engineering Research, 1(4), 743.
Gadakh, V., Shinde, V., & Khemnar, N. (2013). Optimization of welding process parameters using MOORA method. The International Journal of Advanced Manufacturing Technology, 69(9-12), 2031-2039.
Hwang, C.-L., & Yoon, K. (2012). Multiple attribute decision making: methods and applications a state-of-the-art survey. Springer Science & Business Media, 186.
Jean, M.-D., & Wang, J.-T. (2006). Using a principal components analysis for developing a robust design of electron beam welding. The International Journal of Advanced Manufacturing Technology, 28(9), 882-889.
Karande, P., & Chakraborty, S. (2012). Application of multi-objective optimization on the basis of ratio analysis (MOORA) method for materials selection. Materials & Design, 37, 317-324.
Khan, A., & Maity, K. (2016a). Application of MCDM-based TOPSIS method for the optimization of multi quality characteristics of modern manufacturing processes. International Journal of Engineering Research in Africa, 23, 33-51.
Khan, A., & Maity, K. (2016b). A novel MCDM approach for simultaneous optimization of some correlated machining parameters in Turning of CP-Titanium Grade 2. International Journal of Engineering Research in Africa, 22, 94-111.
Khan, A., & Maity, K. (2016c). Parametric optimization of some non-conventional machining processes using MOORA method. International Journal of Engineering Research in Africa, 20, 19-40.
Lin, C. (2004). Use of the Taguchi method and grey relational analysis to optimize turning operations with multiple performance characteristics. Materials and manufacturing processes, 19(2), 209-220.
Majumder, H., Paul, T., Dey, V., Dutta, P., & Saha, A. (2017). Use of PCA-Grey analysis and rsm to model cutting time and surface finish of INCONEL 800 during wire elctro discharge cutting. Measurement, 107, 19-30.
Muthukrishnan, N., & Davim, J. P. (2009). Optimization of machining parameters of Al/SiC-MMC with ANOVA and ANN analysis. Journal of Materials Processing Technology, 209(1), 225-232.
Özel, 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.
Palanikumar, K. (2006). Cutting parameters optimization for surface roughness in machining of GFRP composites using Taguchi’s method. Journal of Reinforced Plastics and Composites, 25(16), 1739-1751.
Peason, K. (1901). On lines and planes of closest fit to systems of point in space. Philosophical Magazine, 2(11), 559-572.
Ray, A. (2016). Optimization of process parameters of green electrical discharge machining using principal component analysis (PCA). The International Journal of Advanced Manufacturing Technology, 87(5-8), 1299-1311.
Saha, A., & Mondal, S. C. (2016a) Multi-objective optimization of welding parameters in MMAW for nano-structured hardfacing material using GRA coupled with PCA. Transactions of the Indian Institute of Metals, 1-12.
Saha, A., & Mondal, S. C. (2016b). Experimental investigation and modelling of WEDM process for machining nano-structured hardfacing material. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 1-17.
Saha, A., & Mondal, S. C. (2016c). Multi-objective optimization in WEDM process of nanostructured hardfacing materials through hybrid techniques. Measurement, 94, 46-59.
Vommi, V. (2017). TOPSIS with statistical distances: A new approach to MADM. Decision Science Letters, 6(1), 49-66.
Wang, M., & Lan, T. (2008). Parametric optimization on multi-objective precision turning using grey relational analysis. Information Technology Journal, 7(7), 1072-1076.
Yih-Fong, T., & Fu-Chen, C. (2006). Multiobjective process optimisation for turning of tool steels. International Journal of Machining and Machinability of Materials, 1(1), 76-93.
Brauers, W. K. M., & Zavadskas, E. K. (2006). The MOORA method and its application to privatization in a transition economy. Control and Cybernetics, 35(2), 445.
Brauers, W. K. M., & Zavadskas, E. K. (2009). Robustness of the multi-objective MOORA method with a test for the facilities sector. Technological and Economic Development of Economy, 2, 352-375.
Brauers, W. K. M., Zavadskas, E. K., Peldschus, F., & Turskis, Z. (2008). Multi-objective optimization of road design alternatives with an application of the MOORA method. Proceedings of the 25th International Symposium on Automation and Robotics in Construction, Lithuania, 541-548.
Davim, J. P., Gaitonde, V., & Karnik, S. (2008). Investigations into the effect of cutting conditions on surface roughness in turning of free machining steel by ANN models. Journal of Materials Processing Technology, 205(1), 16-23.
Dey, S., & Chakraborty, S. (2016). A study on the machinability of some metal alloys using grey TOPSIS method. Decision Science Letters, 5(1), 31-44.
Gadakh, V. (2010). Application of MOORA method for parametric optimization of milling process. International Journal of Applied Engineering Research, 1(4), 743.
Gadakh, V., Shinde, V., & Khemnar, N. (2013). Optimization of welding process parameters using MOORA method. The International Journal of Advanced Manufacturing Technology, 69(9-12), 2031-2039.
Hwang, C.-L., & Yoon, K. (2012). Multiple attribute decision making: methods and applications a state-of-the-art survey. Springer Science & Business Media, 186.
Jean, M.-D., & Wang, J.-T. (2006). Using a principal components analysis for developing a robust design of electron beam welding. The International Journal of Advanced Manufacturing Technology, 28(9), 882-889.
Karande, P., & Chakraborty, S. (2012). Application of multi-objective optimization on the basis of ratio analysis (MOORA) method for materials selection. Materials & Design, 37, 317-324.
Khan, A., & Maity, K. (2016a). Application of MCDM-based TOPSIS method for the optimization of multi quality characteristics of modern manufacturing processes. International Journal of Engineering Research in Africa, 23, 33-51.
Khan, A., & Maity, K. (2016b). A novel MCDM approach for simultaneous optimization of some correlated machining parameters in Turning of CP-Titanium Grade 2. International Journal of Engineering Research in Africa, 22, 94-111.
Khan, A., & Maity, K. (2016c). Parametric optimization of some non-conventional machining processes using MOORA method. International Journal of Engineering Research in Africa, 20, 19-40.
Lin, C. (2004). Use of the Taguchi method and grey relational analysis to optimize turning operations with multiple performance characteristics. Materials and manufacturing processes, 19(2), 209-220.
Majumder, H., Paul, T., Dey, V., Dutta, P., & Saha, A. (2017). Use of PCA-Grey analysis and rsm to model cutting time and surface finish of INCONEL 800 during wire elctro discharge cutting. Measurement, 107, 19-30.
Muthukrishnan, N., & Davim, J. P. (2009). Optimization of machining parameters of Al/SiC-MMC with ANOVA and ANN analysis. Journal of Materials Processing Technology, 209(1), 225-232.
Özel, 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.
Palanikumar, K. (2006). Cutting parameters optimization for surface roughness in machining of GFRP composites using Taguchi’s method. Journal of Reinforced Plastics and Composites, 25(16), 1739-1751.
Peason, K. (1901). On lines and planes of closest fit to systems of point in space. Philosophical Magazine, 2(11), 559-572.
Ray, A. (2016). Optimization of process parameters of green electrical discharge machining using principal component analysis (PCA). The International Journal of Advanced Manufacturing Technology, 87(5-8), 1299-1311.
Saha, A., & Mondal, S. C. (2016a) Multi-objective optimization of welding parameters in MMAW for nano-structured hardfacing material using GRA coupled with PCA. Transactions of the Indian Institute of Metals, 1-12.
Saha, A., & Mondal, S. C. (2016b). Experimental investigation and modelling of WEDM process for machining nano-structured hardfacing material. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 1-17.
Saha, A., & Mondal, S. C. (2016c). Multi-objective optimization in WEDM process of nanostructured hardfacing materials through hybrid techniques. Measurement, 94, 46-59.
Vommi, V. (2017). TOPSIS with statistical distances: A new approach to MADM. Decision Science Letters, 6(1), 49-66.
Wang, M., & Lan, T. (2008). Parametric optimization on multi-objective precision turning using grey relational analysis. Information Technology Journal, 7(7), 1072-1076.
Yih-Fong, T., & Fu-Chen, C. (2006). Multiobjective process optimisation for turning of tool steels. International Journal of Machining and Machinability of Materials, 1(1), 76-93.