Estimation of residual stress influence on the low-cycle fatigue of threaded parts


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Abstract

The possibility of using the criterion of average integral residual stresses to estimate the cyclic life of threaded parts in the area of low-cycle fatigue is examined in the article. The peculiarities of fracture under high-cycle and low-cycle stresses are pointed out. The problems of using equations and criteria of linear mechanics in the low-cycle fatigue area are specified. These problems are mostly related to the origination of plastic deformation regions; the sizes of the latter may be significantly greater than those of the cracks. Technological factors affecting the origination and distribution of residual stresses are considered. It is noted that the diameter of the workpiece for thread rolling, heat treatment, the force and time of rolling are of the greatest importance.  The connection between the number of cycles prior to fracture and the residual stress value, expressed in terms of the average integral residual stress criterion under the influence of different technological factors is illustrated. According to the results of low-cycle fatigue tests of threaded parts it has been shown that the dependence of the number of cycles prior to fracture on the value of the average integral residual stress criterion is approximated closely by equations of the quadratic form. The appropriate magnitudes of approximation reliability are not lower than 0.9163.

About the authors

A. S. Zlobin

Samara State Aerospace University

Author for correspondence.
Email: as.zlobin@mail.ru

Postgraduate student of the Department of Strength of Materials

Russian Federation

References

  1. Pavlov V.F. On connection between residual stresses and endurance limit under bending in stresses concentration conditions. Proceedings of Higher Educational Institutions. Маchine Building. 1986. No.8. P. 29-32. (In Russ.)
  2. Radchenko V.P., Afanacieva O.S. Calculation Procedure of a Fatique Point for Strengthened Cylindrical Specimen with Pressure Concentrators at Temperature Endurances in the Creep Conditions. Vestnik SamGTU. Seriya: Fiziko-Matematicheskie Nauki. 2009. No. 2 (19). P. 264-268. (In Russ.). doi: 10.14498/vsgtu733
  3. Kirpichev V.A., Bukaty A.S., Filatov A.P., Chirkov A.V. Prediction of the endurance limit of superficially strengthened details at various degree of stress concentration. Vestnik UGATU. 2011. No. 4 (44). P. 81-85. (In Russ.)
  4. Kirpichev V.A., Saushkin M.N., Sazanov V.P., Semyonova O.Yu. Residual stresses and endurance strength in the specimens with v-shaped notches made of ВНС40 steel. Vestnik of the Samara State Aerospace University. 2012. № 5 (36), part 1. P. 95-99. (In Russ.)
  5. Pavlov V.F., Kirpichev V.A., Vakulyuk V.S. Prognozirovanie soprotivleniya ustalosti poverkhnostno-uprochnennykh detaley po ostatochnym napryazheniyam [Prediction of fatigue resistance of surface-hardened parts by residual stresses]. Samara: Samarskiy nauchnyy tsentr RAN Publ., 2012. 125 p.
  6. Vakulyuk V.S., Kirpichev V.A., Pavlov V.F., Sazanov V.P. Forecasting the limits of endurance surface hardening of specimens with stress. Vestnik UGATU. 2013. V. 17, №1 (54). P. 45-49. (In Russ.)
  7. Kudryavtsev P.I. Nerasprostranyayushchiesya ustalostnye treshchiny [Nonpropagating fatigue cracks]. Moscow: Mashinostroenie Publ., 1982. 171 p.
  8. Makhutov N.A. Konstruktsionnaya prochnost', resurs i tekhnogennaya bezopasnost'. Chast' 1: Kriterii prochnosti i resursa [Structural strength, service life and technogenic safety. Part 1: Criteria of strength and service life]. Novosibirsk: Nauka Publ., 2005. 494 p.
  9. Makhutov N.A., Burak M.I., Gadenin M.M. Mekhanika malotsiklovogo razrusheniya [Mechanics of low-cycle fatigue failure]. Moscow: Nauka Publ., 1986. 264 p.
  10. Makhutov N.A. Deformatsionnye kriterii razrusheniya i raschet elementov konstruktsiy na prochnost' [Deformation failure criterion and strength calculation of structural elements]. Moscow: Mashinostroenie Publ., 1981. 272 p.
  11. Oakley S.Y., Nowell D. Prediction of the combined high- and low-cycle fatigue performance of gas turbine blades after foreign object damage. International Journal of Fatigue. 2007. V. 29, Iss. 1. P. 69-80. doi: 10.1016/j.ijfatigue.2006.02.042
  12. Ivanov S.I., Pavlov V.F., Minin B.V., Kirpichev V.A., Kocherov E.P., Golovkin V.V. Ostatochnye napryazheniya i soprotivlenie ustalosti vysokoprochnykh rez'bovykh detaley [Residual stresses and fatigue resistance of high-strength threaded parts]. Samara: Samarskiy nauchnyy tsentr RAN Publ., 2015. 170 p.

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