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168                     Djordje Cica and Davorin Kramar

                       Colak,  O.  (2012).  Investigation  on  machining  performance  of  inconel  718  in  high
                          pressure  cooling  conditions.  Strojniški  vestnik-Journal  of  Mechanical  Engineering,
                          58(11), 683-690.
                       Courbon,  C.,  Kramar,  D.,  Krajnik,  P.,  Pusavec,  F.,  Rech,  J.  &  Kopac,  J.  (2009).
                          Investigation  of  machining  performance  in  high-pressure  jet  assisted  turning  of
                          Inconel  718:  an  experimental  study.  International  Journal  of  Machine  Tools  and
                          Manufacture, 49(14), 1114-1125.
                       Diniz, A. E. & Micaroni, R. (2007). Influence of the direction and flow rate of the cutting
                          fluid  on  tool  life  in  turning  process  of  AISI  1045  steel.  International  Journal  of
                          Machine Tools and Manufacture, 47(2), 247-254.
                       Eberhart, R. & Kennedy, J. (1995). A new optimizer using particle swarm theory. Paper
                          presented at the Micro Machine and Human Science, 1995. MHS’95, Proceedings of
                          the Sixth International Symposium.
                       Ezugwu, E. & Bonney, J. (2004). Effect of high-pressure coolant supply when machining
                          nickel-base,  Inconel  718,  alloy  with  coated  carbide  tools.  Journal  of  Materials
                          Processing Technology, 153, 1045-1050.
                       Ezugwu, E. & Bonney, J. (2005). Finish machining of nickel-base Inconel 718 alloy with
                          coated carbide tool under conventional and high-pressure coolant supplies. Tribology
                          Transactions, 48(1), 76-81.
                       Klocke, F., Sangermann, H., Krämer, A. & Lung, D. (2011). Influence of a high-pressure
                          lubricoolant supply on thermo-mechanical tool load and tool wear behaviour in the
                          turning  of  aerospace  materials.  Proceedings  of  the  Institution  of  Mechanical
                          Engineers, Part B: Journal of Engineering Manufacture, 225(1), 52-61.
                       Kramar,  D.  &  Kopac,  J.  (2009).  High  pressure  cooling  in  the  machining  of  hard-to-
                          machine materials. Journal of Mechanical Engineering, 55(11), 685-694.
                       Kramar, D., Sekulić, M., Jurković, Z. & Kopač, J. (2013). The machinability of nickel-
                          based alloys in high-pressure jet assisted (HPJA) turning.  Metalurgija, 52(4), 512-
                          514.
                       Lin, W., Lee, B. & Wu, C. (2001). Modeling the surface roughness and cutting force for
                          turning. Journal of Materials Processing Technology, 108(3), 286-293.
                       Nandy, A., Gowrishankar, M. & Paul, S. (2009). Some studies on high-pressure cooling
                          in turning of Ti–6Al–4V. International Journal of Machine Tools and Manufacture,
                          49(2), 182-198.
                       Sharma, V. S., Dhiman, S., Sehgal, R. & Sharma, S. (2008). Estimation of cutting forces
                          and surface roughness for hard turning using neural networks. Journal of intelligent
                          Manufacturing, 19(4), 473-483.
                       Szecsi,  T.  (1999).  Cutting  force  modeling  using  artificial  neural  networks.  Journal  of
                          Materials Processing Technology, 92, 344-349.
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