Obrabotka Metallov 2019 Vol. 21 No. 2

OBRABOTKAMETALLOV Vol. 21 No. 2 2019 122 MATERIAL SCIENCE 3. Gopinath A., Lim A., Nagarajan B., Wong C.C., Maiti R., Castagne S. Introduction of Enhanced Compressive Residual Stress Profiles inAerospace Components Using Combined Mechanical Surface Treatments. IOP Conference Series: Materials Science and Engineering , 2013, vol. 157 (1). DOI: 10.1088/1757-899X/157/1/012013. 4. Ovseenko A.N., Gajek M., Serebryakov V.I. Formirovanie sostoyaniya poverkhnostnogo sloya detalei mashin tekhnologicheskimi metodami [Machine parts surface layer condition formation by technological methods]. Opole, Politechnika Opolska Publ., 2001. 228 p. ISBN 83-88492-06-3. 5. Birger I.A. Ostatochnye napryazheniya [Residual stresses]. Moscow, Mashgiz Publ., 1963. 232 p. 6. Kudryavtsev I.V. Vnutrennie napryazheniya kak rezerv prochnosti v mashinostroenii [Internal stresses as a strength reserve in mechanical engineering]. Moscow, Mashgiz Publ., 1951. 280 p. 7. Podzei A.V., ed. Tekhnologicheskie ostatochnye napryazheniya [Technological residual stresses]. Moscow, Mashinostroenie Publ., 1973. 216 p. 8. Qin W.J., Dong C., Li X. Assessment of bending fatigue strength of crankshaft sections with consideration of quenching residual stress. Journal of Materials Engineering and Performance , 2016, vol. 25, iss. 3, pp. 938–947. DOI: 10.1007/s11665-016-1890-1. 9. Smelyanskii V.M. Mekhanika uprochneniya detalei poverkhnostnym plasticheskim de-formirovaniem [Surface plastic deformation parts hardening mechanics]. Moscow, Mashinostroenie Publ., 2002. 300 p. ISBN 5-217-03065-8. 10. Blyumenstein V.Yu., Smelyanskii V.M. Mekhanika tekhnologicheskogo nasledovaniya na stadiyakh obrabotki i ekspluatatsii detalei mashin [Technological inheritance mechanics at the machine parts processing and operation stages]. Moscow, Mashinostroenie-1 Publ., 2007. 400 p. ISBN 5-942-75342-9. 11. Blyumenshtein V.Yu., Mahalov M.S. Raschetno-analiticheskaya model’ mekhanicheskogo sostoyaniya poverkhnostnogo sloya uprochnennoi detali na stadii tsiklicheskogo nagruzheniya posle obrabotki razmernym sovmeshchennym obkatyvaniem [The hardened part surface layer mechanical state computational and analytical model at the cyclic loading stage after dimensional joint running-in]. Uprochnyayushchie tekhnologii i pokrytiya = Strengthening Technologies and Coatings , 2009, no. 3, pp. 33–39. 12. Sadasivam B., Hizal A., Arola D. Abrasive waterjet peening with elastic prestress: subsurface residual stress distribution. ASME International Mechanical Engineering Congress and Exposition, IMECE 2007 Conference Paper , Seattle, WA, 2007, vol. 3. DOI: 10.1115/IMECE2007-43473. 13. Saini S., Ahuja I.S., Sharma V.S. Modeling the effects of cutting parameters on residual stresses in hard turning of AISI H11 tool steel. The International Journal of Advanced Manufacturing Technology , 2013, vol. 65, iss. 5–8, pp. 667–678. DOI: 10.1007/s00170-012-4206-0. 14. Yonezu A., Kusano R., Hiyoshi T., Chen Xi. A method to estimate residual stress in austenitic stainless steel using a microindentation test. Journal of Materials Engineering and Performance , 2015, vol. 24, iss. 1, pp. 362–372. DOI: 10.1007/s11665-014-1280-5. 15. Ma Y., Feng P., Zhang J., Wu Z., Yu D. Energy criteria for machining-induced residual stresses in face milling and their relation with cutting power. The International Journal of Advanced Manufacturing Technology , 2015, vol. 81, pp. 1023–1032. DOI: 10.1007/s00170-015-7278-9. 16. Huang X., Sun J., Li J. Finite element simulation and experimental investigation on the residual stress-related monolithic component deformation. The International Journal of Advanced Manufacturing Technology , 2015, vol. 77, pp. 1035–1041. DOI: 10.1007/s00170-014-6533-9. 17. Su J.-C., Young K.A., Ma K., Srivatsa S., Morehouse J.B., Liang S.Y. Modeling of residual stresses in milling. The International Journal of Advanced Manufacturing Technology , 2013, vol. 65, pp. 717–733. DOI: 10.1007/ s00170-012-4211-3. 18. Ji X., Zhang X., Liang S. Predictive modeling of residual stress in minimum quantity lubrication machining. The International Journal of Advanced Manufacturing Technology , 2014, vol. 70, pp. 2159–2168. DOI: 10.1007/ s00170-013-5439-2. 19. Martell J., Liu C., Shi J. Experimental investigation on variation of machined residual stresses by turning and grinding of hardened AISI 1053 steel. The International Journal of Advanced Manufacturing Technology , 2014, vol. 74, iss. 9–12, pp. 1381–1392. DOI: 10.1007/s00170-014-6089-8. 20. Chen J., Fang Q., Zhang L. Investigate on distribution and scatter of surface residual stress in ultra-high speed grinding. The International Journal of Advanced Manufacturing Technology , 2014, vol. 75, pp. 615–627. DOI: 10.1007/s00170-014-6128-5. 21. Altan T. Finite element modeling of roller burnishing process. Manufacturing Technology , 2017, vol. 54 (1), pp. 237–240.