Oil lubricating effect in non-stationery processes and under breaking-in condition.

Authors

  • О.О. Мікосянчик
  • Р.Г. Мнацаканов
  • В.М. Лопата
  • В.І. Калініченко

Abstract

The method of breaking-in of contact surfaces in the non-stationary modes of friction work (start-stop mode) was presented in this work. This method gives possibility more correctly and preciously estimate the ending of breaking-in phase. With the usage of mineral and synthetic oils the final term of steel breaking-in was determined by the kinetic change of main trobothechnical characteristics of contact: estimation of physical and mechanical properties of material surface layers of contact surfaces by the kinetic change of specific friction work, anti-frictional characteristics of contact by the kinetic change of friction moment, lubricating and polymerization properties of lubricant material by the kinetic of formation the thickness of lubricant material.

References

1. Kogaev V.P. Prochnost' i iznosostojkost' detalej mashin, M.: Vysshaja shkola, 1991, 318р.
2. Chumichev A.A. Uskorenie processa prirabotki par trenija metall – metall za schet ispol'zovanija sostava na osnove neorganicheskogo polimera: dis. na soiskanie uchenoj stepeni kandidata tehn. nauk: 05.02.04, K.: KIIGA, 1974, 369р.
3. Ciftan M., Saibel E. Chemostress effect in tribology. Running process in tribology. Editors Dowson D., Toylor C. M., Godet M., Berthe D. Guilford: Butterworth edition, 1981, P.3–5.
4. A.T.Borodin, I.T. Borodin Sposob prirabotki kinematicheskih par trenija skol'zhenija. Avtorskoe svidetel'stvo SSSR № 527624, G 01 M 13/00, bjulleten' №33, 1977, 2р.
5. Porohov V.S. Tribologicheskie metody ispytanija masel i prisadok. M.:Mashinostroenie, 1983, 183р.
6. Dmitrichenko N.F., Mnacakanov R.G.Smazochnye processy v uslovijah nestacionarnogo trenija. Zhitomir:ZhITI, 2002, 308р.
7. Mіkosjanchik O.O., Mnacakanov R.G., Hіmko M.S. Sposіb pripracjuvannja par tertja v nestacіonarnih umovah roboti. Patent Ukraїni na korisnu model' № 92071, G 01 N 3/56, bjuleten' №14, 2014, 3р.
8. Rajko M.V. Issledovanie smazochnogo dejstvija neftjanyh masel v uslovijah raboty zubchatyh peredach: dis. na soiskanie uchenoj stepeni doktora tehn. nauk: 05.02.04, K.: KIIGA, 1974, 369 р.
9. Chernozhukov N.I., Pod red. A.A. Gureeva, B.I. Bondarenko. Tehnologija pererabotki nefti i gaza.Chast' 3, M.: Himija, 1978, 424 р.
10. Hajnike G. Tribohimija, M.: Mashgiz, 1987, 533 р.
11. Klamann D. Smazki i rodstvennye produty, M.: Himija, 1988, 487р.
12. Losikov B.V. Nefteprodukty. Svojstva, kachestvo, primenenie: Spravochnik.. M.: Himija, 1966, 398р.
13. Menter J. W. Physics of lubrication. British Journal of Applied Phisics, 1951, Suppl., № 1, Р.52 – 54.
14. Kuliev A.M. Himija i tehnologija prisadok k maslam i toplivam, L.: Himija, 1985, 312р.
15. Fote A.A., Slade R.A.. Feuerstein S. Thermally induced migration of hydrocarbon oil // Transaction of the ASME Journal of Lubrication Technol. -1977. - April, №4. - Р.158-162.
16. Bowden F. P., Tabor D. Friction and lubrication of solidsю. - Oxford, 1950. – 199р.

Published

2016-06-03

How to Cite

Мікосянчик, О., Мнацаканов, Р., Лопата, В., & Калініченко, В. (2016). Oil lubricating effect in non-stationery processes and under breaking-in condition. Problems of Tribology, 79(1), 69–75. Retrieved from https://tribology.khnu.km.ua/index.php/ProbTrib/article/view/516

Issue

Section

Articles