Shamarin N.N. et. al. 2020 Vol. 22 No. 1

OBRABOTKAMETALLOV Vol. 22 No. 1 2020 112 MATERIAL SCIENCE 2. Rajasekhara S., Karjalainen L.P., Kyröläinen A., Ferreira P.J. Microstructure evolution in nano/submicron grained AISI 301LN stainless steel. Materials Science and Engineering: A , 2010, vol. 527, pp. 1986–1996. DOI: 10.1016/j.msea.2009.11.037. 3. Sun G.S., Du L.X., Hu J., Xie H., Wu H.Y., Misra R.D.K. Ultrahigh strength nano/ultra fi ne-grained 304 stainless steel through three-stage cold rolling and annealing treatment. Materials Characterization , 2015, vol. 110, pp. 228–235. DOI: 10.1016/j.matchar.2015.11.001. 4. Hedayati A., Naja fi zadeh A., Kermanpur A., Forouzan F. The effect of cold rolling regime on microstructure and mechanical properties of AISI 304L stainless steel. Journal of Materials Processing Technology , 2010, vol. 210, no. 8, pp. 1017–1022. DOI: 10.1016/j.jmatprotec.2010.02.010. 5. Ning J. Inverse determination of Johnson – Cook model constants of ultra- fi ne-grained titanium based on chip formation model and iterative gradient search. The International Journal of Advanced Manufacturing Technology , 2018, vol. 99, pp. 1131–1140. DOI: 10.1007/s00170-018-2508-6. 6. Chertovskikh V. Cuttability of UFG titanium BT1-0 obtained by ECAE. Russian Engineering Research , 2007, vol. 27, pp. 260–264. DOI: 10.3103/S1068798X0705005X. 7. Huang Y., Morehead M. Study of machining-induced microstructure variations of nanostructured/ultra fi ne- grained copper using XRD. Journal of Engineering Materials and Technology , 2011, vol. 133, p. 021007. DOI: 10.1115/1.4003105. 8. Rodrigues A.R., Balancin O., Gallego J., Assis C.L.F. de, Matsumoto H., Oliveira F.B. de, Moreira S.R.D.S., Silva Neto O.V. da. Surface integrity analysis when milling ultra fi ne-grained steels. Materials Research , 2012, vol. 15, pp. 125–130. DOI: 10.1590/S1516-14392011005000094. 9. Assis C.L.F. de, Jasinevicius R.G., Rodrigues A.R. Micro end-milling of channels using ultra fi ne-grained low-carbon steel. International Journal of Advanced Manufacturing Technology , 2015,vol. 77, pp. 1155–1165. DOI: 10.1007/s00170-014-6503-2. 10. Surya KiranG.V.V., Krishna K.H., Sameer S., Bhargavi M., Kumar B.S., RaoG.M., NaidubabuY., Dumpala R., Sunil B.R. Machining characteristics of fi ne grainedAZ91Mg alloy processed by friction stir processing. Transactions of Nonferrous Metals Society of China , 2017, vol. 27, pp. 804–811. DOI: 10.1016/S1003-6326(17)60092-X. 11. Bayat Asl Y., Meratian M., Emamikhah A., Mokhtari Homami R., Abbasi A. Mechanical properties and machinability of 6061 aluminum alloy produced by equal-channel angular pressing. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture , 2015, vol. 229, pp. 1302–1313. DOI: 10.1177/0954405414535921. 12. Monkova K., Monka P., Cesanek J., Matejka J., Duchek V. Surface roughness evaluation after machining wear resistant hard coats. MATEC Web of Conferences , 2017, vol. 137, p. 03008. DOI: 10.1051/matecconf/201713703008. 13. Monka P., Monkova K., Modrak V., Hric S., Pastucha P. Study of a tap failure at the internal threads machining. Engineering Failure Analysis , 2019, vol. 100, pp. 25–36. DOI: 10.1016/j.engfailanal.2019.02.035. 14. Monkova K., Monka P., Matejka J., Novak M., Cesanek J., Duchek V., Urban M. Surface machining after deposition of wear resistant hard coats by high velocity oxygen fuel technology. Manufacturing Technology , 2017, vol. 17 (6), pp. 919–925. 15. Monkova K., Monka P., SekerakovaA., Hruzik L., BurecekA., Urban M. Comparative study of chip formation in orthogonal and oblique slow-rate machining of EN 16MnCr5 steel. Metals , 2019, vol. 9 (6), p. 698. DOI: 10.3390/ met9060698. 16. Filippov A.V., Filippova E.O. Ob”emnye ul’tramelkozernistye materialy ot strukturoobrazovaniya k formoobrazovaniyu [Volumetric ultra fi ne-grained materials from structure formation to shaping]. STIN = Russian Engineering Research , 2018, no. 1, pp. 6–10. (In Russian). 17. Filippov A.V., Tarasov S.Yu., Shamarin N.N., Podgornykh O.A., Filippova E.O. Otsenka 2D parametrov sherokhovatosti i volnistosti poverkhnosti posle obrabotki rezaniem splava AMg2 s ul’tramelkozernistoi strukturoi. Ch. 1. Tochenie [Evaluation of 2D parameters of roughness and surface waviness after machining of AMg2 alloy with ultra fi ne-grained structure. Pt. 1. Turning]. STIN = Russian Engineering Research , 2018, no. 7, pp. 20–24. (In Russian). 18. Filippov A.V., Tarasov S.Yu., Podgornykh O.A., Shamarin N.N., Filippova E.O., Vorontsov A.V. Otsenka 2D parametrov sherokhovatosti i volnistosti poverkhnosti posle obrabotki rezaniem splava AMg2 s ul’tramelkozernistoi strukturoi. Ch. 2. Frezerovanie [Evaluation of 2D parameters of surface roughness and waviness after machining of an AMg2 alloy with an ultra fi ne-grained structure. Pt. 2. Milling]. STIN = Russian Engineering Research , 2018, no. 12, pp. 32–35. (In Russian).