Investigation of the machinability by milling of the laser sintered Inconel 625/NiTi-TiB2 composite
OBRABOTKAMETALLOV Vol. 23 No. 1 2021 32 TECHNOLOGY 3. Patel M.R.R., Ranjan M.A. Advanced techniques in machining of aerospace superalloys: a review. International Journal of Advance Research in Engineering, Science and Technology , 2015, vol. 2, no. 5, pp. 149– 154. DOI: 10.26527/ijarest.150507103716. 4. Baranchikov V.I., Tarapanov A.S., Kharlamov G.A. Obrabotka spetsial’nykh materialov v mashinostroenii [Processing of special materials in mechanical engineering]. Moscow, Mashinostroenie Publ., 2002. 264 p. ISBN 5-217-03132-8. 5. Trosch T., Strößner J., Völkl R., Glatzel U. Microstructure and mechanical properties of selective laser melted Inconel 718 compared to forging and casting. Materials Letters , 2016, vol. 164, pp. 428–431. DOI: 10.1016/j. matlet.2015.10.136. 6. Granovskii G.I., Granovskii V.G. Rezanie metallov [Metal cutting]. Moscow, Vysshaya shkola Publ., 1985. 304 p. 7. PolishettyA., Shunmugavel M., Goldberg M., Littlefair G., Singh R.K. Cutting force and surface fi nish analysis of machining additive manufactured titanium alloy Ti-6Al-4V. Procedia Manufacturing , 2017, vol. 7, pp. 284–289. DOI: 10.1016/j.promfg.2016.12.071. 8. Roy S., Kumar R., Anurag, Panda A., Das R.K. A brief review on machining of Inconel 718. Materials Today: Proceedings , 2018, vol. 5, iss. 9, pp. 18664–18673. DOI: 10.1016/j.matpr.2018.06.212. 9. Maslenkov S.B. Zharoprochnye stali i splavy [Heat-resistant steels and alloys]. Moscow, Metallurgiya Publ., 1983. 192 p. ISBN 978-5-458-28144-7. 10. Arunachalam R., Mannan M.A. Machinability of nickel-based high temperature alloys. Machining Science and Technology , 2000, vol. 4, iss. 1, pp. 127–168. DOI: 10.1080/10940340008945703. 11. Tekhnologiya obrabotki metallov rezaniem [Technology of metal cutting]. Sandvik Coromant, 2009. 359 p. 12. Grguraš D., KernM., Pušavec F. Suitability of the full body ceramic end milling tools for high speed machining of nickel based alloy Inconel 718. Procedia CIRP , 2018, vol. 77, pp. 630–633. DOI: 10.1016/j.procir.2018.08.190. 13. Feucht F., Ketelaer J., WolffA., Mori M., Fujishima M. Latest machining technologies of hard-to-cut materials by ultrasonic machine tool. Procedia CIRP , 2014, vol. 14, pp. 148–152. DOI: 10.1016/j.procir.2014.03.040. 14. Kuo K.L., Tsao C.C. Rotary ultrasonic-assisted milling of brittle materials. Transactions of Nonferrous Metals Society of China , 2012, vol. 22, suppl. 3, pp. 793–800. DOI: 10.1016/S1003-6326(12)61806-8. 15. Kuruc M., Necpal M., Vopát T., Šimna V., Peterka J. In fl uence of ultrasonic assistance on delamination during machining of different composite materials. Annals of DAAAM and Proceedings , 2017, vol. 28. DOI: 10.2507/28th. daaam.proceedings.055. 16. Ni C., Zhu L., Yang Z. Comparative investigation of tool wear mechanism and corresponding machined surface characterization in feed-direction ultrasonic vibration assisted milling of Ti–6Al–4V from dynamic view. Wear , 2019, vol. 436–437, p. 203006. DOI: 10.1016/j.wear.2019.203006. 17. HEM Guidebook: a machinist’s guide to increasing shop productivity with high ef fi ciency milling . Harvey Performance Company, LLC, 2017. Available at: https://www.harveyperformance.com/in-the-loupe/hem-guidebook- download/ (accessed 15.01.2021). 18. Roberts S. High-ef fi ciency milling speed changes rules. Canadian Metalworking , 2018, January 10. Available at: https://www.canadianmetalworking.com/article/cuttingtools/high-ef fi ciency-milling-speed-changes- rules (accessed 15.01.2021). 19. Derek K. Optimize cutting ef fi ciency, optimize throughput. Modern Machine Shop , 2005, February 15. Available at: https://www.mmsonline.com/articles/optimize-cutting-ef fi ciency-optimize-throughput (accessed 15.01.2021). 20. High Speed Machining Vs. HEM . 2017, August 11. Available at: https://www.harveyperformance.com/in-the- loupe/high-ef fi ciency-milling-vs-high-speed-machining/ (accessed 15.01.2021). 21. High ef fi ciency vs. High Feed Milling: which is more productive? Modern Machine Shop , 2018, November 2. Available at: https://www.mmsonline.com/articles/high-ef fi ciency-vs-high-feed-milling-which-is-more-productive (accessed 15.01.2021). 22. Katalog rezhushchego instrumenta kompanii “PK MION” [The cutting tool catalog of the PC MION company]. Tomsk, 2019. Available at: http://pkmion.ru/catalog/frezy/ (accessed 15.01.2021). Con fl icts of Interest The authors declare no con fl ict of interest. 2021 The Authors. Published by Novosibirsk State Technical University. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/ ).
Made with FlippingBook
RkJQdWJsaXNoZXIy MTk0ODM1