How to cite this paper
Mishra, P., Das, D., Ukamanal, M., Routara, B & Sahoo, A. (2015). Multi-response optimization of process parameters using Taguchi method and grey relational analysis during turning AA 7075/SiC composite in dry and spray cooling environments.International Journal of Industrial Engineering Computations , 6(4), 445-456.
Refrences
Chandrasekaran, M. & Tamang, S. (2014). Desirability analysis and genetic algorithm approaches to optimize single and multi response characteristics in machining Al-SiCp MMC, 5th International & 26th All India Manufacturing Technology, Design and Research Conference, 653.1-653.6.
Ciftci, I, Turker, M & Seker, U. (2004). Evaluation of tool wear when machining SiCp -reinforced Al-2014 alloy matrix composites. Materials and Design, 25, 251-255.
Das, D.K., Mishra, P.C., & Singh, S. (2014). Properties of ceramic-reinforced aluminum matrix composites - a review. International Journal of Mechanical and Materials Engineering, 9, 1-16.
Ding, X., Liew W.Y.H. & Liu, X.D. (2005). Evaluation of machining performance MMC with PCBN and PCD tools, Wear, 259, 1225-1234.
Gallab, M.E.I. & Sklad, M. (1998). Machining of Al/SiC particulate metal-matrix composites, Part-II: workpiece surface integrity. Journal of Materials Processing Technology, 83, 277-285.
Gupta, M. & Kumar, S. (2013). Multi-objective optimization of cutting parameters in turning using grey relational analysis. International Journal of Industrial Engineering Computations, 4, 547-558.
Hung, N.P., Boey, F.Y.C, & Khor, K.A. (1995). Machinability of cast and powder-formed aluminum alloys reinforced with SiC particles. Journal of Material Processing Technology, 48, 291-297.
Kannan, S. & Kishawy, H.A. (2008). Tribological aspects of machining aluminum metal matrix composites, Journal of Materials Processing Technology, 198, 399-406.
Kannan, S. & Kishawy, H.A. (2006).Surface characteristics of machined aluminum metal matrix composites. International Journal of Machine Tools & Manufacture, 46, 2017–2025.
Kilickap, E., Cakir, O., & Aksoy, M. (2005). Study of tool wear and surface roughness in machining of homogenized SiC-p reinforced aluminum metal matrix composite. Journal of Materials Processing Technology, 164–165, 862–867.
Krishna, A.A.S.R. & Reddy, P.R. (2012). Temperature Prediction in Orthogonal Machining of A1/SiCp Composites, International Journal of Emerging Technology and Advanced Engineering, 2(6), 223-229.
Krishnamurthy, K. & Venkatesh, J. (2013). Assessment of surface roughness and material removal rate on machining of TIB2 reinforced aluminum 6063 composites: a Taguchi’s approach. International Journal of Scientific and Research Publications, 3(1), 1-6.
Kumar, G.B.V., Rao, C.S.P, & Selvaraj, N. (2010). Studies on Al6061-SiC and Al7075-Al2O3 metal matrix composites. Journal of Minerals & Materials Characterization & Engineering, 9 (1), 43-55.
Lin, C.L. (2004). Use of Taguchi method and grey relational analysis to optimize turning operations in multiple performance characteristics. Materials and Manufacturing Processes, 19 (2), 209-220.
Manna, A. & Bhattacharyya, B. (2002). A study on different tooling system during machining of Al/SiC MMC. Journal of Materials Processing Technology, 123, 476-482.
Radhika, N., Subramanian, R. & Sajith, A. (2014). Analysis of chip formation in machining aluminum hybrid composites. E3 Journal of Scientific Research, 2(1), 009-015.
Schubert, A. & Nestler, A. (2011). Enhancement of surface integrity in turning of particle reinforced aluminum matrix composites by tool design. 1st CIRP Conference on Surface Integrity (CSI), Procedia Engineering, 19, 300-305.
Sreenivasulu, R. & Rao, C.S. (2012). Application of grey relational analysis for surface roughness and roundness error in drilling of Al 6061 alloy, International Journal of Lean Thinking, 3(2), 67-78.
Suryanarayanan, K., Praveen, R. & Raghuraman, S. (2013). Silicon carbide reinforced aluminum metal matrix composites for aerospace applications: a literature review. International Journal of Innovative Research in Science, Engineering and Technology, 2(11), 6336-6344.
Tzeng, C.J, Lin, Y.H, & Yang, Y.K. (2009). Optimization of turning operations with multiple performance characteristics using the Taguchi method and Grey relational analysis. Journal of Materials Processing Technology, 209, 2753-2759.
Ciftci, I, Turker, M & Seker, U. (2004). Evaluation of tool wear when machining SiCp -reinforced Al-2014 alloy matrix composites. Materials and Design, 25, 251-255.
Das, D.K., Mishra, P.C., & Singh, S. (2014). Properties of ceramic-reinforced aluminum matrix composites - a review. International Journal of Mechanical and Materials Engineering, 9, 1-16.
Ding, X., Liew W.Y.H. & Liu, X.D. (2005). Evaluation of machining performance MMC with PCBN and PCD tools, Wear, 259, 1225-1234.
Gallab, M.E.I. & Sklad, M. (1998). Machining of Al/SiC particulate metal-matrix composites, Part-II: workpiece surface integrity. Journal of Materials Processing Technology, 83, 277-285.
Gupta, M. & Kumar, S. (2013). Multi-objective optimization of cutting parameters in turning using grey relational analysis. International Journal of Industrial Engineering Computations, 4, 547-558.
Hung, N.P., Boey, F.Y.C, & Khor, K.A. (1995). Machinability of cast and powder-formed aluminum alloys reinforced with SiC particles. Journal of Material Processing Technology, 48, 291-297.
Kannan, S. & Kishawy, H.A. (2008). Tribological aspects of machining aluminum metal matrix composites, Journal of Materials Processing Technology, 198, 399-406.
Kannan, S. & Kishawy, H.A. (2006).Surface characteristics of machined aluminum metal matrix composites. International Journal of Machine Tools & Manufacture, 46, 2017–2025.
Kilickap, E., Cakir, O., & Aksoy, M. (2005). Study of tool wear and surface roughness in machining of homogenized SiC-p reinforced aluminum metal matrix composite. Journal of Materials Processing Technology, 164–165, 862–867.
Krishna, A.A.S.R. & Reddy, P.R. (2012). Temperature Prediction in Orthogonal Machining of A1/SiCp Composites, International Journal of Emerging Technology and Advanced Engineering, 2(6), 223-229.
Krishnamurthy, K. & Venkatesh, J. (2013). Assessment of surface roughness and material removal rate on machining of TIB2 reinforced aluminum 6063 composites: a Taguchi’s approach. International Journal of Scientific and Research Publications, 3(1), 1-6.
Kumar, G.B.V., Rao, C.S.P, & Selvaraj, N. (2010). Studies on Al6061-SiC and Al7075-Al2O3 metal matrix composites. Journal of Minerals & Materials Characterization & Engineering, 9 (1), 43-55.
Lin, C.L. (2004). Use of Taguchi method and grey relational analysis to optimize turning operations in multiple performance characteristics. Materials and Manufacturing Processes, 19 (2), 209-220.
Manna, A. & Bhattacharyya, B. (2002). A study on different tooling system during machining of Al/SiC MMC. Journal of Materials Processing Technology, 123, 476-482.
Radhika, N., Subramanian, R. & Sajith, A. (2014). Analysis of chip formation in machining aluminum hybrid composites. E3 Journal of Scientific Research, 2(1), 009-015.
Schubert, A. & Nestler, A. (2011). Enhancement of surface integrity in turning of particle reinforced aluminum matrix composites by tool design. 1st CIRP Conference on Surface Integrity (CSI), Procedia Engineering, 19, 300-305.
Sreenivasulu, R. & Rao, C.S. (2012). Application of grey relational analysis for surface roughness and roundness error in drilling of Al 6061 alloy, International Journal of Lean Thinking, 3(2), 67-78.
Suryanarayanan, K., Praveen, R. & Raghuraman, S. (2013). Silicon carbide reinforced aluminum metal matrix composites for aerospace applications: a literature review. International Journal of Innovative Research in Science, Engineering and Technology, 2(11), 6336-6344.
Tzeng, C.J, Lin, Y.H, & Yang, Y.K. (2009). Optimization of turning operations with multiple performance characteristics using the Taguchi method and Grey relational analysis. Journal of Materials Processing Technology, 209, 2753-2759.