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JOURNALS // Journal of Samara State Technical University, Ser. Physical and Mathematical Sciences
Vestn. Samar. Gos. Tekhn. Univ., Ser. Fiz.-Mat. Nauki [J. Samara State Tech. Univ., Ser. Phys. Math. Sci.], 2014, Issue 1(34), Pages 93–108 (Mi vsgtu1313)
Kinetics of the stress-strain state of surface hardened cylindrical specimen under complex stress state of creep
V. P. Radchenko, V. V. Tsvetkov

References
1. V. F. Pavlov, V. A. Kirpichev, V. B. Ivanov, Ostatochnye napryazheniya i soprotivlenie ustalosti uprochnennykh detaley s kontsentratorami napryazheniy [Residual Stresses and Fatigue  zmath
2. Resistance of Hardened Parts with Stress Concentrators] Samara Scientific Center, Russian Academy of Sciences, Samara, 2008, 64 pp. (In Russian)
3. I. G. Grichenko, Uprochnenie detaley iz zharoprochnykh i titanovykh splavov [Hardening Components of Heat-Resistant and Titanium Alloys], Mashinostroenie, Moscow, 1971, 120 pp. (In Russian)
4. B. A. Kravchenko, V. G. Krutsilo, G. N. Gutman, Termoplasticheskoe uprochnenie — rezerv povysheniya prochnosti i nadezhnosti detaley mashin [Thermoplastic Hardening as a Reserve Increase of Strength and Reliability of Machine Parts], Samara State Technical University, Samara, 2000, 216 pp. (In Russian)
5. A. M. Sulima, V. A. Shuvalov, Yu. D. Yagodkin, Poverkhnostniy sloi i ekspluatatsionne svoistva detaley mashin [Surface Layer and Performance of Machine Parts], Mashinostroenie, Moscow, 1988, 240 pp. (In Russian)
6. V. P. Radchenko, M. N. Saushkin, Polzuchest' i relaksatsiya ostatochnykh napryazheniy v uprochnonnykh konstruktsiyakh [Creep and Relaxation of Residual Stresses in Hardened Structures], Mashinostroenie-1, Moscow, 2005, 226 pp. (In Russian)  elib
7. V. P. Radchenko, V. A. Kirpichev, V. A. Lunin, “Influence of thermoexposition on residual stresses of specimens from EP742 alloy after the ultrasonic hardening”, Vestn. Samar. Gos. Tekhn. Univ. Ser. Tech. Nauki, 2012, no. 3(35), 147–154 (In Russian)  elib
8. V. I. Tseitlin, O. V. Kolotnikova, “Relaxation of residual stresses in gas-turbine engine parts”, Strength of Materials, 12:8 (1980), 982-984  crossref
9. D. J. Buchanan, R. John., “Relaxation of shot-peened residual stresses under creep loading”, Scripta Materialia, 59:3 (2008), 286–289  crossref  isi  elib
10. Lechun Xie, Chuanhai Jiang, Vincent Ji, “Thermal relaxation of residual stresses in shot peened surface layer of (TiB + TiC)/Ti-6Al-4V composite at elevated temperatures”, Materials Science and Engineering: A, 528:21 (2011), 6478—6489  crossref  isi
11. B. J. Foss, S. Gray, M. C. Hardy, S. Stekovic, D. S. McPhail, B. A. Shollock, “Analysis of shot-peening and residual stress relaxation in the nickel-based superalloy RR1000”, Acta Materialia, 61:7 (2013), 2548–2559  crossref  isi
12. A. Evans, S-B. Kim, J. Shackleton, G. Bruno, M. Preuss, P. J. Withers, “Relaxation of residual stress in shot peened Idimet 720Li under high temperature isothermae fatigue”, Int. J. Fatigue, 27:10–12 (2005), 1530–1534  crossref  isi
13. M. Benedetti, V. Fontanari, P. Scardi, C. L. A. Ricardo, M. Banclini, “Reverse bending fatigue of shot peened 7075-T651 aluminium alloy: the role of residual stress relaxation”, Int. J. Fatigue, 2009, no. 31, 1225–1236  crossref
14. Jong-Cheon Kim, Seong-Kyun Cheong, Hirochi Noguchi, “Residual stress relaxation and low- and high-cycle fatigue behavior of shot-peened medium-carbon steel”, Int. J. Fatigue, 56 (2013), 114–122  crossref  isi
15. O. V. Kolotnikova, “Effectiveness of hardening by methods of plastic surface deformation of components operating at high temperatures”, Strength of Material, 15:2 (1983), 292–295  crossref  isi
16. S. I. Ivanov, “Residual stresses determination in cylinder surface layer”, Voprosy prochnosti elementov aviatsionnykh konstruktsiy [Problems of strength for aircraft structural elements], v. 48, Kuibyshev Aviation Institute, Kuibyshev, 1971, 153–168 (In Russian)
17. S. I. Ivanov, “To residual stresses definition in a cylinder by using the rings and stripes method”, Ostatochnye napryazheniya [Residual Stresses], v. 53, Kuibyshev Aviation Institute, Kuibyshev, 1974, 32–42 (In Russian)
18. V. P. Radchenko, M. N. Saushkin, V. F. Pavlov, “Method of calculating the fields of residual stresses and plastic strains in cylindrical specimens with allowance for surface hardening anisotropy”, J. Appl. Mech. Tech. Phys., 52:2 (2011), 303–310  crossref  zmath  isi  elib  elib
19. V. P. Radchenko, M. N. Saushkin, “Mathematical models of recovery and relaxation of residual stresses in the surface-hardened of cylindrical structural elements under creeping”, Izv. Vyssh. Uchebn. Zaved., Mashinostr., 2004, no. 11, 3–17 (In Russian)
20. V. P. Radchenko, M. N. Saushkin, “Direct method of solving the boundary-value problem of relaxation of residual stresses in a hardened cylindrical specimen under creep conditions”, J. Appl. Mech. Tech. Phys., 50:6 (2009), 989–997  crossref  zmath  isi  elib  elib
21. V. P. Radchenko, V. F. Pavlov, M. N. Saushkin, “Determination of anisotropy of strengthening and residual stresses in a steel sample cylinder treated with a roller”, Journal of Machinery Manufacture and Reliability, 40:4 (2011), 379–385  crossref  elib
22. V. P. Radchenko, V. V. Tsvetkov, “The stress-strain state of cylindrical sample from alloy D16T under axial tension and torsion creep”, Vestn. Samar. Gos. Tekhn. Univ. Ser. Fiz.-Mat. Nauki, 2013, no. 3(32), 77–86 (In Russian)  mathnet  crossref  zmath  rsci  elib
23. B. V. Gorev, A. F. Nikitenko, Energeticheskiy variant teorii polzuchesti [Energy variant of the theory of creep], Inst. of Hydrodynamics, USSR Acad. of Sci., Novosibirsk, 1986, 96 pp. (In Russian)
24. V. P. Radchenko, Yu. A. Eremin, Reologicheskoe deformirovanie i razrushenie materialov i elementov konstruktsiy [Rheological Deformation and Fracture of Materials and Structural Elements], Mashinostroenie-1, Moscow, 2004, 264 pp. (In Russian)

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