An Experimental Study on the effect of Minimum Quantity Lubrication on Drilling AISI 1040 Steel

A.m.m. Nazmul Ahsan; Md. Golam Kibria; Md. Raju Ahmed

An Experimental Study on the effect of Minimum Quantity Lubrication on Drilling AISI 1040 Steel

Year 2015, Volume: 28 Issue: 1, 161 - 167, 23.02.2015

A.m.m. Nazmul Ahsan , Md. Golam Kibria Md. Raju Ahmed

Abstract

The growing demand for higher productivity, product quality and overall economy in manufacturing by drilling particularly to meet the challenges thrown by liberalization and global cost competitiveness, insists high material removal rate and high stability and long life of the cutting tools. However, high production machining with high cutting velocity, feed and depth of cut is inherently associated with the generation of large amount of heat and this high cutting temperature not only reduces dimensional accuracy and tool life but also impairs the surface finish of the product. The dry drilling of steels is an environmentally friendly machining process but has some serious problems like higher cutting temperature, tool wear and greater dimensional deviation. Conventional cutting fluids (wet machining) eliminate such problems but have some drawbacks. They possess a significant portion of the total machining cost. Thus machining under Minimum Quantity Lubrication (MQL) condition has drawn the attention of researchers as an alternative to the traditionally used wet and dry machining conditions with a view to minimizing the cooling and lubricating cost as well as reducing cutting zone temperature, tool wear, surface roughness and dimensional deviation. In this paper, the effects MQL on dimensional deviation, drilling force and torque during drilling AISI 1040 steel are examined. Results are compared with drilling under dry and wet conditions and found quite impressive.

Keywords

MQL, Cutting Zone Temperature, dimensional Deviation, Drilling Force, Torque

References

Bag˘ci, E., Ozcelik, B., “Investigation of the effect of drilling conditions on the twist drill temperature during step-by-step and continuous dry drilling”, Materials and Design, 27: 446–454, (2006).
Kitagawa, T., Kubo, A., and Maekawa, K., “Temperature and wear of cutting tools in high- speed machining of Inconel 718 and Ti-6Al-6V- 2Sn”, Wear, 202(2): 142-148, (1997).
Kumar, A.S., Rahman, M., and Ng, S.L., “Effect of High-Pressure Coolant on Machining Performance", International Journal of Advance Manufacturing Technology, 20: 83–91, (2002).
Panda, S.S., Singh, A.K., D. Chakraborty, D., Pal, S.K., “Drill Wear Monitoring Using Back Propagation Neural Network”, Journal of Materials Processing Technology, 172: 283–290, (2006).
Sanjay, C., Neemab, M.L., Chin, C.W., “Modeling of Tool Wear in Drilling by Statistical Analysis and Artificial Neural Network”, Journal of Materials Processing Technology, 170: 494–500, (2005).
Ezugwu, E.O., Lai, C.J., “Failure Modes and Wear Mechanisms of M35 High Speed Steel Drills when Machining Inconel 901”, Journal of materials Processing Technology, 49: 295-312, (1995).
Braga, D.U., Diniz, A.E., Miranda, Gilberto W.A., Coppini, N.L., “Using a Minimum Quantity of Lubricant (MQL) and a Diamond Coated Tool in the Drilling of Aluminum–Silicon Alloys”, Journal of Materials Processing Technology, 122(1): 127–138, (2002).
Beaubien, S.J., and Cattaneo, A.G., “A Study of the Role of Cutting Fluid in Machining Operation”, Lubrication Engineering, 10: 74-79, (1964).
Cassin, C., and Boothroyed, G., “Lubrication Action of Engineering Science, 7(1): 67-81, (1965). of Mechanical
Klocke, F., and Eisenblätter, G., “Dry Cutting”, Annals of the CIRP, 46(2): 519-526, (1997). [11] Weinert, K., Inasaki, I., Sutherland, J.W., Wakabayashi, T., “Dry Machining and Minimum Quantity Lubrication”, Annals of the CIRP, 53(2): 511-537, (2004).
Thamizhmanii, S., Rosli, and Hasan, S., “A Study of Minimum Quantity Lubrication on Inconel 718 Steel”, Engineering, 39(1): 38-44, (2009). and
Kamata, Y., Obikawa, T., “High Speed MQL Finish Turning of Inconel 718 with Coated Tools”, Journal of Materials Processing Technology, 192-193: 281- 286 (2007).
Liaoa, Y.S., Lina, H.M., Chenb, Y.C., “Feasibility Study of the Minimum Quantity Lubrication in High-Speed End Milling of Nak80 Hardened Steel by Coated Carbide Tool”, International Journal of Machine Tools & Manufacture, 47: 1667–1676, (2007).
Bhowmick, S., Alpas, A.T. “Minimum Quantity Lubrication Drilling of Aluminium–Silicon Alloys in Water Using Diamond-Like Carbon Coated Drills”, International Journal of Machine Tools & Manufacture, 48: 1429– 1443, (2008).

Year 2015, Volume: 28 Issue: 1, 161 - 167, 23.02.2015

A.m.m. Nazmul Ahsan , Md. Golam Kibria Md. Raju Ahmed

Abstract

References

Bag˘ci, E., Ozcelik, B., “Investigation of the effect of drilling conditions on the twist drill temperature during step-by-step and continuous dry drilling”, Materials and Design, 27: 446–454, (2006).
Kitagawa, T., Kubo, A., and Maekawa, K., “Temperature and wear of cutting tools in high- speed machining of Inconel 718 and Ti-6Al-6V- 2Sn”, Wear, 202(2): 142-148, (1997).
Kumar, A.S., Rahman, M., and Ng, S.L., “Effect of High-Pressure Coolant on Machining Performance", International Journal of Advance Manufacturing Technology, 20: 83–91, (2002).
Panda, S.S., Singh, A.K., D. Chakraborty, D., Pal, S.K., “Drill Wear Monitoring Using Back Propagation Neural Network”, Journal of Materials Processing Technology, 172: 283–290, (2006).
Sanjay, C., Neemab, M.L., Chin, C.W., “Modeling of Tool Wear in Drilling by Statistical Analysis and Artificial Neural Network”, Journal of Materials Processing Technology, 170: 494–500, (2005).
Ezugwu, E.O., Lai, C.J., “Failure Modes and Wear Mechanisms of M35 High Speed Steel Drills when Machining Inconel 901”, Journal of materials Processing Technology, 49: 295-312, (1995).
Braga, D.U., Diniz, A.E., Miranda, Gilberto W.A., Coppini, N.L., “Using a Minimum Quantity of Lubricant (MQL) and a Diamond Coated Tool in the Drilling of Aluminum–Silicon Alloys”, Journal of Materials Processing Technology, 122(1): 127–138, (2002).
Beaubien, S.J., and Cattaneo, A.G., “A Study of the Role of Cutting Fluid in Machining Operation”, Lubrication Engineering, 10: 74-79, (1964).
Cassin, C., and Boothroyed, G., “Lubrication Action of Engineering Science, 7(1): 67-81, (1965). of Mechanical
Klocke, F., and Eisenblätter, G., “Dry Cutting”, Annals of the CIRP, 46(2): 519-526, (1997). [11] Weinert, K., Inasaki, I., Sutherland, J.W., Wakabayashi, T., “Dry Machining and Minimum Quantity Lubrication”, Annals of the CIRP, 53(2): 511-537, (2004).
Thamizhmanii, S., Rosli, and Hasan, S., “A Study of Minimum Quantity Lubrication on Inconel 718 Steel”, Engineering, 39(1): 38-44, (2009). and
Kamata, Y., Obikawa, T., “High Speed MQL Finish Turning of Inconel 718 with Coated Tools”, Journal of Materials Processing Technology, 192-193: 281- 286 (2007).
Liaoa, Y.S., Lina, H.M., Chenb, Y.C., “Feasibility Study of the Minimum Quantity Lubrication in High-Speed End Milling of Nak80 Hardened Steel by Coated Carbide Tool”, International Journal of Machine Tools & Manufacture, 47: 1667–1676, (2007).
Bhowmick, S., Alpas, A.T. “Minimum Quantity Lubrication Drilling of Aluminium–Silicon Alloys in Water Using Diamond-Like Carbon Coated Drills”, International Journal of Machine Tools & Manufacture, 48: 1429– 1443, (2008).

There are 14 citations in total.

Details

Primary Language	English
Journal Section	Mechanical Engineering
Authors	A.m.m. Nazmul Ahsan Md. Golam Kibria This is me Md. Raju Ahmed This is me
Publication Date	February 23, 2015
Published in Issue	Year 2015 Volume: 28 Issue: 1

Cite

APA	Ahsan, A. N., Kibria, M. G., & Ahmed, M. R. (2015). An Experimental Study on the effect of Minimum Quantity Lubrication on Drilling AISI 1040 Steel. Gazi University Journal of Science, 28(1), 161-167.
AMA	Ahsan AN, Kibria MG, Ahmed MR. An Experimental Study on the effect of Minimum Quantity Lubrication on Drilling AISI 1040 Steel. Gazi University Journal of Science. February 2015;28(1):161-167.
Chicago	Ahsan, A.m.m. Nazmul, Md. Golam Kibria, and Md. Raju Ahmed. “An Experimental Study on the Effect of Minimum Quantity Lubrication on Drilling AISI 1040 Steel”. Gazi University Journal of Science 28, no. 1 (February 2015): 161-67.
EndNote	Ahsan AN, Kibria MG, Ahmed MR (February 1, 2015) An Experimental Study on the effect of Minimum Quantity Lubrication on Drilling AISI 1040 Steel. Gazi University Journal of Science 28 1 161–167.
IEEE	A. N. Ahsan, M. G. Kibria, and M. R. Ahmed, “An Experimental Study on the effect of Minimum Quantity Lubrication on Drilling AISI 1040 Steel”, Gazi University Journal of Science, vol. 28, no. 1, pp. 161–167, 2015.
ISNAD	Ahsan, A.m.m. Nazmul et al. “An Experimental Study on the Effect of Minimum Quantity Lubrication on Drilling AISI 1040 Steel”. Gazi University Journal of Science 28/1 (February 2015), 161-167.
JAMA	Ahsan AN, Kibria MG, Ahmed MR. An Experimental Study on the effect of Minimum Quantity Lubrication on Drilling AISI 1040 Steel. Gazi University Journal of Science. 2015;28:161–167.
MLA	Ahsan, A.m.m. Nazmul et al. “An Experimental Study on the Effect of Minimum Quantity Lubrication on Drilling AISI 1040 Steel”. Gazi University Journal of Science, vol. 28, no. 1, 2015, pp. 161-7.
Vancouver	Ahsan AN, Kibria MG, Ahmed MR. An Experimental Study on the effect of Minimum Quantity Lubrication on Drilling AISI 1040 Steel. Gazi University Journal of Science. 2015;28(1):161-7.