How to cite this paper
Jindal, R & Choudhary, D. (2015). Experimental scrutiny to induce the ramification of cutting parameters in CNC turning of AISI H21 steel employing response surface methodology.International Journal of Industrial Engineering Computations , 6(3), 315-326.
Refrences
Aggarwal, A., Singh, H., Kumar, P., & Singh, M. (2008). Optimizing power consumption for CNC turned parts using response surface methodology and Taguchi & apos; s technique—a comparative analysis. Journal of Materials Processing Technology, 200(1), 373-384.
Ahmed, G. S., Ahmed, H., & Samad, S. S. (2013). Experimental investigation of effect of tool length on surface roughness during turning operation and its optimization. IOSR Journal of Mechanical and Civil Engineering, 7(2), 73-80.
Asiltürk, I., & Akku?, H. (2011). Determining the effect of cutting parameters on surface roughness in hard turning using the Taguchi method. Measurement, 44(9), 1697-1704.
Barik, C. R., & Mandel, N. K. (2010). Parametric effect and optimization of surface roughness of EN 31 in CNC dry turning. International Journal of Lean Thinking, 3(2), 1-13.
Gaitonde, V. N., Karnik, S. R., & Davim, J. P. (2008). Selection of optimal MQL and cutting conditions for enhancing machinability in turning of brass. Journal of Materials Processing Technology, 204(1), 459-464.
Jiang, L., Roos, ?., & Liu, P. (1997). The influence of austenite grain size and its distribution on chip deformation and tool life during machining of AISI 304L.Metallurgical and Materials Transactions A, 28(11), 2415-2422.
Kaladhar, M., Subbaiah, K. V., Rao, C. S., & Rao, K. N. (2010). Optimization of process parameters in turning of AISI202 austenitic stainless steel. ARPN Journal of Engineering and Applied Sciences, 5(9), 79-87.
Khamel, S., Ouelaa, N., & Bouacha, K. (2012). Analysis and prediction of tool wear, surface roughness and cutting forces in hard turning with CBN tool. Journal of mechanical science and technology, 26(11), 3605-3616.
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.
Kumbhar, Y. B., & Waghmare, C. A. (2013). Tool Life And Surface Roughness Optimization Of PVD TiAlN/TiN Multilayer Coated Carbide Inserts In Semi Hard Turning Of Hardened EN31 Alloy Steel Under Dry Cutting Conditions. International Journal of Advanced Engineering Resources Studies, 2(4), 22-27.
Mahdavinejad, R. A., & Saeedy, S. (2011). Investigation of the influential parameters of machining of AISI 304 stainless steel. Sadhana, 36(6), 963-970.
Noordin, M. Y., Venkatesh, V. C., Sharif, S., Elting, S., & Abdullah, A. (2004). Application of response surface methodology in describing the performance of coated carbide tools when turning AISI 1045 steel. Journal of Materials Processing Technology, 145(1), 46-58.
Rodr?guez, J., Mu?oz-Escalona, P., & Cassier, Z. (2011). Influence of cutting parameters and material properties on cutting temperature when turning stainless steel. Revista de la Facultad de Ingenier?a Universidad Central de Venezuela, 26(1), 71-80.
Sivaraman, V., Sankaran, S., & Vijayaraghavan, L. (2012a). The Effect of Cutting Parameters on Cutting Force During Turning Multiphase Microalloyed Steel. Procedia CIRP, 4, 157-160.
Sivaraman, V., Sankaran, S., & Vijayaraghavan, L. (2012b). Machinability of multiphase microalloyed steel. Procedia CIRP, 2, 55-59.
Ahmed, G. S., Ahmed, H., & Samad, S. S. (2013). Experimental investigation of effect of tool length on surface roughness during turning operation and its optimization. IOSR Journal of Mechanical and Civil Engineering, 7(2), 73-80.
Asiltürk, I., & Akku?, H. (2011). Determining the effect of cutting parameters on surface roughness in hard turning using the Taguchi method. Measurement, 44(9), 1697-1704.
Barik, C. R., & Mandel, N. K. (2010). Parametric effect and optimization of surface roughness of EN 31 in CNC dry turning. International Journal of Lean Thinking, 3(2), 1-13.
Gaitonde, V. N., Karnik, S. R., & Davim, J. P. (2008). Selection of optimal MQL and cutting conditions for enhancing machinability in turning of brass. Journal of Materials Processing Technology, 204(1), 459-464.
Jiang, L., Roos, ?., & Liu, P. (1997). The influence of austenite grain size and its distribution on chip deformation and tool life during machining of AISI 304L.Metallurgical and Materials Transactions A, 28(11), 2415-2422.
Kaladhar, M., Subbaiah, K. V., Rao, C. S., & Rao, K. N. (2010). Optimization of process parameters in turning of AISI202 austenitic stainless steel. ARPN Journal of Engineering and Applied Sciences, 5(9), 79-87.
Khamel, S., Ouelaa, N., & Bouacha, K. (2012). Analysis and prediction of tool wear, surface roughness and cutting forces in hard turning with CBN tool. Journal of mechanical science and technology, 26(11), 3605-3616.
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.
Kumbhar, Y. B., & Waghmare, C. A. (2013). Tool Life And Surface Roughness Optimization Of PVD TiAlN/TiN Multilayer Coated Carbide Inserts In Semi Hard Turning Of Hardened EN31 Alloy Steel Under Dry Cutting Conditions. International Journal of Advanced Engineering Resources Studies, 2(4), 22-27.
Mahdavinejad, R. A., & Saeedy, S. (2011). Investigation of the influential parameters of machining of AISI 304 stainless steel. Sadhana, 36(6), 963-970.
Noordin, M. Y., Venkatesh, V. C., Sharif, S., Elting, S., & Abdullah, A. (2004). Application of response surface methodology in describing the performance of coated carbide tools when turning AISI 1045 steel. Journal of Materials Processing Technology, 145(1), 46-58.
Rodr?guez, J., Mu?oz-Escalona, P., & Cassier, Z. (2011). Influence of cutting parameters and material properties on cutting temperature when turning stainless steel. Revista de la Facultad de Ingenier?a Universidad Central de Venezuela, 26(1), 71-80.
Sivaraman, V., Sankaran, S., & Vijayaraghavan, L. (2012a). The Effect of Cutting Parameters on Cutting Force During Turning Multiphase Microalloyed Steel. Procedia CIRP, 4, 157-160.
Sivaraman, V., Sankaran, S., & Vijayaraghavan, L. (2012b). Machinability of multiphase microalloyed steel. Procedia CIRP, 2, 55-59.