How to cite this paper
Panda, S., Senapati, A & Mishra, P. (2017). Multi-regression prediction model for surface roughness and tool wear in turning novel aluminum alloy (LM6)/fly ash composite using response surface and central composite design methodology.International Journal of Industrial Engineering Computations , 8(1), 1-18.
Refrences
Anasyida, A. S., Daud, A. R., & Ghazali, M. J. (2010). Dry sliding wear behavior of Al–12Si–4Mg alloy with cerium addition. Materials and Design, 31(1), 365-374.
Banerjee, S., Mahapatro, D., & Dubey, S. (2009). Some study on electrical discharge machining of ({WC+ TiC+ TaC/NbC}–Co) cemented carbide. The International Journal of Advanced Manufacturing Technology, 43(11-12), 1177-1188.
Bienia, J., Walczak, M., Surowska, B., & Sobczaka, J. (2003). Microstructure and corrosion behavior of aluminum fly ash composites. Journal of Optoelectronics and Advanced Materials, 5(2), 493-502.
Box, G. E., & Hunter, J. S. (1957). Multi-factor experimental designs for exploring response surfaces. The Annals of Mathematical Statistics, 28(1), 195-241.
Charles, S., Arunachalam, V. P., & Subramanian, R. (2006). Property analysis and mathematical modeling of machining parameters of aluminum hybrid composites fabricated by powder metallurgy. Journal of Advanced Materials, 38(4), 25-34.
Cochran, W. G., & Cox, G. M.(1957). Experimental Designs. John Wiley and Sons, New York.
Dou, Z., Wu, G., Huang, X., Sun, D., & Jiang, L. (2007). Electromagnetic shielding effectiveness of aluminum alloy–fly ash composites. Composites Part A: Applied Science and Manufacturing, 38(1), 186-191.
Li, X., & Seah, W. K. H. (2001). Tool wear acceleration in relation to workpiece reinforcement percentage in cutting of metal matrix composites. Wear, 247(2), 161-171.
Manna, A., & Bhattacharayya, B. (2005). Influence of machining parameters on the machinability of particulate reinforced Al/SiC–MMC. The International Journal of Advanced Manufacturing Technology, 25(9), 850-856.
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.
Montgomery, D.C. (1990). Introduction to statistical quality control. Wiley, New York.
Montgomery, D. C. & Peck, E. A. (1992). Introduction to linear regression analysis, Wiley, New York.
Prakash, J. U., Moorthy, T. V., & Peter, J. M. (2013). Experimental investigations on machinability of aluminium alloy (A413)/Flyash/B4C hybrid composites using wire EDM. Procedia Engineering, 64, 1344-1353.
Rao, C. P., Bhagyashekar, M. S., & Viswanath, N. (2014). Machining behavior of Al6061-flyash composites. Procedia Materials Science, 5, 1593-1602.
Reddy, S. M., Chetty, S. V., & Premkumar, S. (2013). Evaluation of mechanical and wear properties of Al 7075, flyash and E-glass fibre-reinforced hybrid metal matrix composites. Indian Foundry Journal, 59(2), 27-32.
Rohatgi, P. K., Kim, J. K., Gupta, N., Alaraj, S., & Daoud, A. (2006). Compressive characteristics of A356/fly ash cenosphere composites synthesized by pressure infiltration technique. Composites Part A: Applied Science and Manufacturing, 37(3), 430-437.
Rohatgi, P. K., Gajdardziska-Josifovska, M., Robertson, D. P., Kim, J. K., & Guo, R. Q. (2002). Age-hardening characteristics of aluminum alloy-hollow fly ash composites. Metallurgical and Materials Transactions A, 33(5), 1541-1547.
Rohatgi, P. K., Weiss, D., & Gupta, N. (2006). Applications of fly ash in synthesizing low-cost MMCs for automotive and other applications. JOM, 58(11), 71-76.
Saheb, N., Laoui, T., Daud, A. R., Harun, M., Radiman, S., & Yahaya, R. (2001). Influence of Ti addition on wear properties of Al–Si eutectic alloys. Wear, 249(8), 656-662.
Sahoo, A. K., Pradhan, S., & Rout, A. K. (2013). Development and machinability assessment in turning Al/SiCp-metal matrix composite with multilayer coated carbide insert using Taguchi and statistical techniques. Archives of Civil and Mechanical Engineering, 13(1), 27-35.
Senapati, A. K., Mishra, P. C., Routray, B. C., & Ganguly, R. I. (2015). Mechanical behavior of aluminium matrix composite reinforced with untreated and treated waste fly ash. Indian Journal of Science and Technology, 8(S9), 111-118.
Shanmughasundaram, P., & Subramanian, R. (2013). Wear behavior of eutectic Al-Si alloy-graphite composites fabricated by combined modified two-stage stir casting and squeeze casting methods. Advances in Materials Science and Engineering, 2013.
Shanmughasundaram, P., & Subramanian, R. (2013). Influence of graphite and machining parameters on the surface roughness of Al-fly ash/graphite hybrid composite: a Taguchi approach. Journal of Mechanical Science and Technology, 27(8), 2445-2455.
Surappa, M. K. (2008). Synthesis of fly ash particle reinforced A356 Al composites and their characterization. Materials Science and Engineering: A, 480(1), 117-124.
Wu, G. H., Dou, Z. Y., Jiang, L. T., & Cao, J. H. (2006). Damping properties of aluminum matrix–fly ash composites. Materials Letters, 60(24), 2945-2948.
Banerjee, S., Mahapatro, D., & Dubey, S. (2009). Some study on electrical discharge machining of ({WC+ TiC+ TaC/NbC}–Co) cemented carbide. The International Journal of Advanced Manufacturing Technology, 43(11-12), 1177-1188.
Bienia, J., Walczak, M., Surowska, B., & Sobczaka, J. (2003). Microstructure and corrosion behavior of aluminum fly ash composites. Journal of Optoelectronics and Advanced Materials, 5(2), 493-502.
Box, G. E., & Hunter, J. S. (1957). Multi-factor experimental designs for exploring response surfaces. The Annals of Mathematical Statistics, 28(1), 195-241.
Charles, S., Arunachalam, V. P., & Subramanian, R. (2006). Property analysis and mathematical modeling of machining parameters of aluminum hybrid composites fabricated by powder metallurgy. Journal of Advanced Materials, 38(4), 25-34.
Cochran, W. G., & Cox, G. M.(1957). Experimental Designs. John Wiley and Sons, New York.
Dou, Z., Wu, G., Huang, X., Sun, D., & Jiang, L. (2007). Electromagnetic shielding effectiveness of aluminum alloy–fly ash composites. Composites Part A: Applied Science and Manufacturing, 38(1), 186-191.
Li, X., & Seah, W. K. H. (2001). Tool wear acceleration in relation to workpiece reinforcement percentage in cutting of metal matrix composites. Wear, 247(2), 161-171.
Manna, A., & Bhattacharayya, B. (2005). Influence of machining parameters on the machinability of particulate reinforced Al/SiC–MMC. The International Journal of Advanced Manufacturing Technology, 25(9), 850-856.
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.
Montgomery, D.C. (1990). Introduction to statistical quality control. Wiley, New York.
Montgomery, D. C. & Peck, E. A. (1992). Introduction to linear regression analysis, Wiley, New York.
Prakash, J. U., Moorthy, T. V., & Peter, J. M. (2013). Experimental investigations on machinability of aluminium alloy (A413)/Flyash/B4C hybrid composites using wire EDM. Procedia Engineering, 64, 1344-1353.
Rao, C. P., Bhagyashekar, M. S., & Viswanath, N. (2014). Machining behavior of Al6061-flyash composites. Procedia Materials Science, 5, 1593-1602.
Reddy, S. M., Chetty, S. V., & Premkumar, S. (2013). Evaluation of mechanical and wear properties of Al 7075, flyash and E-glass fibre-reinforced hybrid metal matrix composites. Indian Foundry Journal, 59(2), 27-32.
Rohatgi, P. K., Kim, J. K., Gupta, N., Alaraj, S., & Daoud, A. (2006). Compressive characteristics of A356/fly ash cenosphere composites synthesized by pressure infiltration technique. Composites Part A: Applied Science and Manufacturing, 37(3), 430-437.
Rohatgi, P. K., Gajdardziska-Josifovska, M., Robertson, D. P., Kim, J. K., & Guo, R. Q. (2002). Age-hardening characteristics of aluminum alloy-hollow fly ash composites. Metallurgical and Materials Transactions A, 33(5), 1541-1547.
Rohatgi, P. K., Weiss, D., & Gupta, N. (2006). Applications of fly ash in synthesizing low-cost MMCs for automotive and other applications. JOM, 58(11), 71-76.
Saheb, N., Laoui, T., Daud, A. R., Harun, M., Radiman, S., & Yahaya, R. (2001). Influence of Ti addition on wear properties of Al–Si eutectic alloys. Wear, 249(8), 656-662.
Sahoo, A. K., Pradhan, S., & Rout, A. K. (2013). Development and machinability assessment in turning Al/SiCp-metal matrix composite with multilayer coated carbide insert using Taguchi and statistical techniques. Archives of Civil and Mechanical Engineering, 13(1), 27-35.
Senapati, A. K., Mishra, P. C., Routray, B. C., & Ganguly, R. I. (2015). Mechanical behavior of aluminium matrix composite reinforced with untreated and treated waste fly ash. Indian Journal of Science and Technology, 8(S9), 111-118.
Shanmughasundaram, P., & Subramanian, R. (2013). Wear behavior of eutectic Al-Si alloy-graphite composites fabricated by combined modified two-stage stir casting and squeeze casting methods. Advances in Materials Science and Engineering, 2013.
Shanmughasundaram, P., & Subramanian, R. (2013). Influence of graphite and machining parameters on the surface roughness of Al-fly ash/graphite hybrid composite: a Taguchi approach. Journal of Mechanical Science and Technology, 27(8), 2445-2455.
Surappa, M. K. (2008). Synthesis of fly ash particle reinforced A356 Al composites and their characterization. Materials Science and Engineering: A, 480(1), 117-124.
Wu, G. H., Dou, Z. Y., Jiang, L. T., & Cao, J. H. (2006). Damping properties of aluminum matrix–fly ash composites. Materials Letters, 60(24), 2945-2948.