Investigating on process variables effect of AISI 304 stainless steel machining using minimum quantity lubricant on cutting force
Subject Areas : Journal of Simulation and Analysis of Novel Technologies in Mechanical EngineeringMohammad Ali Safataj 1 , Sayed Ehsan Mirmohammadsadeghi 2 , Reza Abedinzadeh 3
1 - Department of Mechanical Engineering, Khomeinishahr Branch, Islamic Azad University, Khomeinishahr/Isfahan, Iran
2 - Department of Mechanical Engineering, Khomeinishahr Branch, Islamic Azad University, Khomeinishahr/Isfahan, Iran
3 - Department of Mechanical Engineering, Khomeinishahr Branch, Islamic Azad University, Khomeinishahr/Isfahan, Iran
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[1] Mirmohammadsadeghi, S. E., & Amirabadi, H. (2018). High-pressure jet-assisted turning of AISI 304: Experimental and multi-objective optimization approach. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 232(6), 734-750.
[2] Ji, X., Zhang, X., Li, B., & Liang, S. Y. (2014). Modeling the effects of minimum quantity lubrication on machining force, temperature, and residual stress. Machining Science and Technology, 18(4), 547-564.
[3] Çakır, A., Yağmur, S. E. L. Ç. U. K., Kavak, N., Küçüktürk, G. Ö. K. H. A. N., & Şeker, U. (2016). The effect of minimum quantity lubrication under different parameters in the turning of AA7075 and AA2024 aluminum alloys. The International Journal of Advanced Manufacturing Technology, 84(9), 2515-2521.
[4] Kumar, S., Singh, D., & Kalsi, N. S. (2017). Analysis of surface roughness during machining of hardened AISI 4340 steel using minimum quantity lubrication. Materials Today: Proceedings, 4(2), 3627-3635.
[5] Hadad, M., & Sadeghi, B. (2013). Minimum quantity lubrication-MQL turning of AISI 4140 steel alloy. Journal of Cleaner Production, 54, 332-343.
[6] Ali, S. M., Dhar, N. R., & Dey, S. K. (2011). Effect of minimum quantity lubrication (mql) on cutting performance in turning medium carbon steel by uncoated carbide insert at different speed-feed combinations. Advances in Production Engineering & Management, 6(3).
[7] KarimiPour, A., Toghraie, D., Akbari, O. A., Zarringhalam, M., & Ahmadi Sheikh Shabani, G. (2016). Experimental investigation of the effect of suspended nanoparticles into conventional fluid on the heat transfer improvement. Journal of Simulation and Analysis of Novel Technologies in Mechanical Engineering, 9(2), 209-220.
[8] Chaudhari, S. S., Khedkar, S. S., & Borkar, N. B. (2011). Optimization of process parameters using Taguchi approach with minimum quantity lubrication for turning. International Journal of Engineering Research and Applications (IJERA), 1(4), 1268-1273.
[9] Sadr, P., Kolahdooz, A., & Eftekhari, S. A. (2015). The effect of electrical discharge machining parameters on alloy DIN 1.2080 using the Taguchi method and optimal determinant. Journal of Simulation and Analysis of Novel Technologies in Mechanical Engineering, 8(2), 71-89.
[10] Ekinovic, S., Prcanovic, H., & Begovic, E. (2015). Investigation of influence of MQL machining parameters on cutting forces during MQL turning of carbon steel St52-3. Procedia engineering, 132, 608-614.
[11] Najiha, M. S., Rahman, M. M., Yusoff, A. R., & Kadirgama, K. (2012). Investigation of flow behavior in minimum quantity lubrication nozzle for end milling processes. International Journal of Automotive and Mechanical Engineering, 6(1), 768-776.
[12] Khan, M. M. A., Mithu, M. A. H., & Dhar, N. R. (2009). Effects of minimum quantity lubrication on turning AISI 9310 alloy steel using vegetable oil-based cutting fluid. Journal of materials processing Technology, 209(15-16), 5573-5583.
[13] Kouam, J., Songmene, V., Balazinski, M., & Hendrick, P. (2015). Effects of minimum quantity lubricating (MQL) conditions on machining of 7075-T6 aluminum alloy. The International Journal of Advanced Manufacturing Technology, 79(5), 1325-1334.
