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Journal of the Association of Engineers, India

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2017
2020

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Mondal, Krishnendu

Wet Turning of AISI 52100 Steel-An Experimental Investigation

Abstract Views :345 | PDF Views:4

Authors

Krishnendu Mondal ¹, Santanu Das ²

Affiliations
1 Department of Mechanical Engineering, Bankura Unnayani Institute of Engineering, Bankura-722146, West Bengal, IN
2 Department of Mechanical Engineering, Kalyani Govt. Engineering College, Kalyani-741235, West Bengal, IN

Source

Journal of the Association of Engineers, India, Vol 87, No 3-4 (2017), Pagination: 46-59

Abstract

This paper concerns with machinability study by judging cutting force, chip formed and chip reduction coefficient while finish turning of AISI 52100 steel employing a number of tool inserts in wet environment. This kind of steel is utilized in constructing different structures, equipment, etc. Turning tests are carried out with varying speed-feed combinations. Narrow groove, plain (without any groove) and wide groove coated carbide inserts are used. Chip formed, cutting force components, etc. are observed. From the results obtained, some conditions are tried to explore corresponding to desired machinability. Good machining performance is reported with plain tool insert at the cutting velocity of 161 m/min and 253 m/min within the scope of the present work.

Keywords

Machining, Turning, Coated Carbide, Cutting Force, Insert, Cutting Tool, Wet Condition.

Full Text

References

Kalpakjian, S. and Schmid, S.R., Manufacturing Processes for Engineering Materials, Pearson Publication, India, 2016.

Agrawal, A., Goel, S., Rashid, W.B. and Price, M., Prediction on surface roughness during hard turning of AISI 4340 steel (69 HRC), Applied Soft Computing, Vol. 30, pp. 233-238, 2015.

Zhou, J. and Andersson, M., Effect of lubricant condition and tool wear in hard turning of novel-abrasion-resistance (N-AR) cast iron, Materials and Manufacturing Processes, Vol. 22, pp. 865-870, 2007.

Davim, J.P. and Figueira, L., Machinability evaluation in hard turning of cold work tool steel (D2) with ceramic tools using statistical techniques, Materials and Design, Vol. 28, pp. 1186-1191, 2007.

Mondal, K., Das, S., Mandal, B. and Sarkar, D., An investigation on turning hardened steel using different tool inserts, Materials and Manufacturing Processes, Vol. 31(13), pp. 1770-1781, 2016.

Mondal, K. and Das, S., An investigation on machinability during turning hardened steel in dry condition, Journal of The Institution of Engineers (India): Series C, DOI: 10.1007/s40032-017-0370-1, 2017.

Mondal, K. and Das, S., An investigation on machinability during hard turning with narrow groove tool insert in different environmental conditions, Proceedings of the International Conference on Mechanical Engineering, Dhaka, Bangladesh, p. 200, 2015.

Mahanty, P.S., Mondal, B.N. and Das, S., Development and performance testing of toughened alumina ceramic cutting tool, Proceedings of the International Conference on Advanced Manufacturing Technology, Durgapur, India, pp. 547-553, 2007.

Sarkar, S., Sarkar, S., Das, P.K., Das, S. and Paul, S., Performance of a newly developed multiwalled carbon nanotube reinforced alumina tool insert during turning of AISI 1060 steel, Journal of Association of Engineers, Vol. 86(1-2), pp. 64-79, 2016.

Sarkar, S., Mondal, K., Das, S. and Das, P.K., A brief experimental investigation on wearing of CNT reinforced alumina insert, Manufacturing Technology Today, Vol. 15(7), pp. 31-35, 2016.

El Hakim, M.A., Shalaby, M.A., Veldhuis, S.C. and Dosbaeva, G.K., Effect of secondary hardening on cutting forces, cutting temperature, and tool wear in hard turning of high alloy tool steels, Measurement, Vol. 65, pp. 233-238, 2015.

Sahoo, A.K. and Sahoo, B., Experimental investigation on machinability aspects in finish hard turning of AISI 4340 steel using uncoated and multilayer coated carbide inserts, Measurement, Vol. 45, pp. 2153-2165, 2012.

Chattopadhyay, A.B., Machining and Machine Tools, Wiley India Pvt. Ltd., India, 2011.

Jerold, B.D. and Kumar, M.P., Machining of AISI 316 stainless steel under carbon-di-oxide cooling, Materials and Manufacturing Processes, Vol. 27, pp. 1059-1065, 2012.

Fratila, D. and Caizar, C., Investigation of the influence of process parameters and cooling method on the surface quality of AISI-1045 during turning. Materials and Manufacturing Processes, Vol. 27, pp. 1123-1128, 2012.

Mia, M. and Dhar, N.R., Optimization of surface roughness and cutting temperature in high-pressure coolant-assisted hard turning using Taguchi method, International Journal of Advanced Manufacturing Technology, Vol. 88, pp. 739-753, 2017.

Sing, R.K., Sharma, A.K., Dixit, A.R., Tiwari, A.K., Pramanik, A. and Mandal, A., Performance evaluation of alumina- graphene hybrid nano-cutting fluid in hard turning, Journal of Cleaner Production, Vol.162, pp. 830-845, 2017.

Chen, L., Tai, B.L., Chaudhari, R.G., Song, X. and Shih, A.J., Machined surface temperature in hard turning, International Journal of Machine Tools and Manufacture, DOI: http://dx.doi.org/10.1016/j.ijmachtools.2017.03.003, 2017.

Liew, P.J., Shaaroni, A., Sidik, N.A.C. and Yan, J., An overview of current status of cutting fluids and cooling techniques of turning hard steel, International Journal of Heat and Mass Transfer, Vol.114, pp. 380-394, 2017.

Akincioglu, S., Gokkaya, H. and Uygur, I., The effects of cryogenic-treated carbide tools on tool wear and surface roughness of turning of hastelloy C22 based on Taguchi method, International Journal Advanced Manufacturing Technology, Vol. 82(1-4), pp. 303-314, 2016.

Singh, D. and Rao, P.V., Performance improvement of hard turning with solid lubricants, International Journal of Advanced Manufacturing Technology, Vol. 38, pp. 529-535, 2008.

Pereira, O., Rodriguez, A., Fernandez-Valdivielso, A., Barreiro, J., Fernandez-Abiab, A.I. and Lopez-de-Lacalleb, L.N., Cryogenic hard turning of ASP23 steel using carbon dioxide, Procedia Engineering, Vol.132, pp. 486-491, 2015.

An Investigation on Turning of Hard Steel using Coated Carbide Inserts

Abstract Views :336 | PDF Views:3

Authors

Krishnendu Mondal ¹, Anjan Kumar Adak ², Subhasish Chatterjee ², Bijoy Mandal ², Santanu Das ²

Affiliations
1 Mechanical Engineering Department, Bankura Unnayani Institute of Engineering, Bankura-722146, IN
2 Mechanical Engineering Department, Kalyani Government Engineering College, Kalyani- 741235, IN

Source

Journal of the Association of Engineers, India, Vol 90, No 1-2 (2020), Pagination: 47-55

Abstract

Employing conventional machining operations in material removal type manufacturing processes for processing difficult-to-machine hard materials through some ways and means is the focus of research by machining research groups across the globe since long. This gives considerable advantages over the grinding process in terms of higher material removal rate, better surface integrity of the work surface, etc., although grinding is commonly used for material removal of quite hard materials along with their finishing. In this paper, machinability of hard AISI 4340 steel is explored employing groove-type chip breaking coated carbide inserts under various cutting velocity and feed at dry condition. Hardened AISI 4340 is considered to be a difficult-to-machine material, and hence, recommendable machining conditions need to be found out. Favourable flat continuous chip is acquired at a cutting velocity of 231 m/min and at a feed of 0.08 mm/rev. At 391 m/min cutting velocity, cutting edges are detected to have worn-out quite fast.

Keywords

Machining, Turning, Cutting Force, Chip, Insert, Coated Carbide.

Full Text

References

Ozel, T., Karpat, A. and Srivastava A., Hard turning with variable micro-geometry PcBN tools, CIRP Annals-Manufacturing Technology, Vol.57, pp.73-76, 2008.

Aslantas, K., Ucun, I. and Cicek, A., Tool life and wear mechanism of coated and uncoated Al20 3/ TiCN mixed ceramic tools in turning hardened alloy steel, Wear, Vol.274-275, pp.442-451, 2012.

Bouacha, K., Yallese, M.A., Mabrouki, T. and Rigal, J.F., Statistical analysis of surface roughness and cutting forces using response surface methodology in hard turning of AISI 52100 bearing steel with cBN tool, International Journal of Refractory Metals and Hard Materials, Vol.28, pp.349-369, 2010.

Mondal, K, Das, S., Mondal, B. and Sarkar, D., An investigation on turning hardened steel using different tool inserts, Materials and Manufacturing Processes, Vol.31, pp. 1770-1781, 2016.

Kumar, S. and Patel, S.Kr., Effect of chip sliding velocity and temperature on the wear behaviour of PVDAICrN andAITiN coated mixed alumina cutting tools during turning of hardened steel, Surface & Coating Technology, Vol.334, pp.509-525, 2018.

Noordin, M.Y., Venkatesh, V.C. and Sharif, S., Dry turning of tempered martensitic stainless tool steel using coated cermet and coated carbide tools, Journal of Materials Processing Technology, Vol. 185, pp.83-90, 2007.

Zhao T., Zhou, J.M., Bushlya, V. and Stahl, J.E.; Effect of cutting edge radius on surface roughness and tool wear in hard turning of AISI 52100 steel; International Journal of Advanced Manufacturing and Technology, Vol.91, pp.3611-3618, 2017.

Grezesik, W. and Wanat, T., Surface finish generated in HT of quenched alloy steel parts using conventional and wiper ceramic inserts, International Journal of Machine Tools and Manufacture, Vol.46, pp. 1988-1995, 2006.

More, A.S., Jiang, W., Brown, W.D. and Malshe, A.P, Tool wear and machining performance of cBN-TiN coated carbide inserts and PCBN compact inserts in turning AISI 4340 hardened steel, Journal of Materials Processing Technology, Vol. 180, pp.253-262, 2006.

Jiang, W., More, A.S., Brown, W.D. and Malshe, A.P, AcBN-TiN composite coating for carbide inserts: coating characterization and its application for finish hard turning, Surface & Coating Technology, Vol.201, pp.2443-2449, 2006.

Bushlya, V.M., Guntichenko, O.A., Zhou, J.M., Stahl, J.E. and Gunnarson, S., Tool wear and tool life of PCBN, binderless cBN and wBN-cBN tools in continuous finish hard turning of cold work tool steel, Journal of Superhard Materials, Vol.36, pp.49-60, 2014.

Yallese, Md.A., Chaoui, K., Zeghib, N., Boulanouar, L. and Rigal, J., Hard machining of hardened bearing steel using cubic boron nitride tool, Journal of Materials processing Technology, Vol.209, pp. 1092-1104, 2009.

Chou, Y.K., Chris, C.J. and Barash, M.M., Experimental investigation on cBN turning of hardened AISI 52100 steel, Journal of Materials Processing Technology, Vol. 124, pp.274-283, 2002.

Galoppi, G.D.S, Filho, M.S. and Batalha, G.F., Hard turning of tempered DIN 100Cr6 steel with coated and no coated CBN inserts, Journal of Materials Processing Technology, Vol.179, pp.146-153,2006.

Noordin, M.Y., Venkatesh, V.C., Sharif, S., Elting, S. and Abdullah, A., Application of response surface methodology in describing the performance of coated carbide tools when turning AISI 1045 steel, Journal of Materials Processing Technology, Vol.145, pp.46-58, 2004.

BhattacharyaA., Das, S., Majumder, P. and Batish, A., Estimating the effect of cutting parameters on surface finish and power consumption during high speed machining of AISI 1045 steel using taguchi design and ANOVA, Production Engineering Res. Devel., Vol.3, pp.31-40, 2009.

Qian, L. and Hossan, M.R., Effect of cutting force in turning hardened tool steels with cubic boron nitride inserts, Journal of Materials Processing Technology, Vol. 191, pp.274-278, 2007.

Lin, H.M., Liao, Y.S. and Wei, C.C., Wear behaviour in turning of high hardness alloy steel by cBN tool, Wear, Vol.264, pp.679-684, 2008.

Bartya, G. and Choudhury, S.K., Effect of cutting parameters on cutting forces and surface roughness during finish hard turning AISI 52100 grade steel, Procedia CIRP, Vol.1, pp.651-656, 2012.

Bruni, C., Gabrielli, F.F. and Simoncini, M., Effect of the lubrication-cooling technique, insert technology and machine bed material on the workpart surface finish and tool wear in finish turning of AISI 420B, International Journal of Advanced Manufacturing Technology, Vol.46, pp. 1547-1554, 2006.

Sharma, VS., Dogra, M. and Suri, N.M., Cooling techniques for improved productivity in turning process, International Journal of Machine Tools & Manufacture, Vol.49, pp. 435-453, 2009.

Varadarajan, A.S., Philip, P.K. and Ramamoorthy, B., Investigations on hard turning with minimal cutting fluid application (HTMF) and its comparison with dry and wet turning, International Journal of Machine Tools and Manufacture, Vol.42, pp. 193200,2002.

Sharma, A.K., Tiwari, A.K. and Dixit, A.R., Effects of Minimum Quantity Lubrication (MQL) in machining processes using conventional and nanofluid based cutting fluids: a comprehensive review, Journal of Cleaner Production, Vol.127, pp.1-18, 2016.

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