Smart Search 

Title of the article



LIS Ivan N., M. Sc. in Eng., Lecturer of Special Disciplines, Lida College of Yanka Kupala State University of Grodno, Lida, Republic of Belarus, This email address is being protected from spambots. You need JavaScript enabled to view it.">This email address is being protected from spambots. You need JavaScript enabled to view it.

BOGDANOVICH Alexander V., D. Sc. in Eng., Assoc. Prof., Professor of the Department of Theoretical and Applied Mechanics, Belarusian State University, Minsk, Republic of Belarus, This email address is being protected from spambots. You need JavaScript enabled to view it.">This email address is being protected from spambots. You need JavaScript enabled to view it.

Year 2020 Issue 3 Pages 89–94
Type of article RAR Index UDK 539.4 Index BBK  
Abstract The article gives the description of the calculation and experimental assessment of the durability and other characteristics of the resistance to wear-and-fatigue damage to a “shaft – liner” active system under regular and irregular loading for mechano-sliding fatigue, developed on the basis of the energy criterion of limiting states. The methodology is based on the nonlinear hypothesis of the wear-and-fatigue damage accumulation, takes into account the influence of different in nature hardening-softening processes associated with the class of material (cyclically hardening, softening, or stable), the nature of irregular loading, the properties of a corrosive environment and other factors. An algorithm for calculating the durability, taking into account the loading history, is developed. An example of calculation is considered. The curves of sliding and mechano-sliding fatigue of the active system “shaft (0.45 % carbon steel) – liner (siluminum)” are constructed.

active system, plain bearing, durability, mechano-sliding fatigue

  You can access full text version of the article.
  1. Kogaev V.P., Makhutov N.A., Gusenkov A.P. Raschety detaley mashin na prochnost i dolgovechnost [Calculations of machine parts for strength and durability]. Moscow, Mashinostroenie Publ., 1985. 224 p. (in Russ.).
  2. Reshetov D.N., Gusenkov A.P., Drozdov Yu.N., et al. Mashinostroenie. T. IV-1. Detali mashin. Konstruktsionnaya prochnost. Trenie, iznos, smazka [Mechanical Engineering. Vol. IV-1. Machine parts. Structural strength. Friction, wear, lubrication]. Moscow, Mashinostroenie Publ., 1995. 864 p. (in Russ.).
  3. Kogaev V.P., Drozdov Yu.N. Prochnost i iznosostoykost detaley mashin [Strength and wear resistance of machine parts]. Moscow, Vysshaya shkola Publ., 1991. 319 p. (in Russ.).
  4. Troshchenko V.T., Krasovskiy A.Ya., Pokrovskiy V.V., Sosnovskiy L.A., Strizhalo V.A. Soprotivlenie materialov deformirovaniyu i razrusheniyu: v 2 t. [Resistance of materials to deformation and destruction: in 2 volumes]. Kiev, Naukovaya dumka Publ., 1993. 988 p. (in Russ.).
  5. Sosnovskiy L.A. Statisticheskaya mekhanika ustalostnogo razrusheniya [Statistical mechanics of fatigue failure]. Minsk, Nauka i tekhnika Publ., 1987. 288 p. (in Russ.).
  6. Sosnovskiy L.A. Osnovy tribofatiki: v 2 t. [Fundamentals of tribo-fatigue: in 2 volumes]. Gomel, Belorusskiy gosudarstvennyy universitet transporta Publ., 2003. 481 p. (in Russ.).
  7. Sosnovskiy L.A., Makhutov N.A. Tribofatika: iznosoustalostnye povrezhdeniya v problemakh resursa i bezopasnosti [Tribo-fatigue: wear-fatigue damage problems of lifetime and security]. Moscow, Gomel, NPO “TRIBOFATIKA” Publ., FTsNTP PP “Bezopasnost” Publ., 2000. 304 p. (in Russ.).
  8. State Standard 30638-99. Mezhgosudarstvennyy standart. Tribofatika. Terminy i opredeleniya [Interstate standard. Tribo-fatigue. Terms and definitions]. Minsk, Mezhgosudarstvennyy Sovet po standartizatsii, metrologii i sertifikatsii Publ., 1999. 24 p. (in Russ.).
  9. Bogdanovich A.V. Prognozirovanie predelnykh sostoyaniy silovykh sistem [Predicting the limit states of power systems]. Grodno, Grodnenskiy gosudarstvennyy universitet Publ., 2008. 371 p. (in Russ.).
  10. Sosnovskiy L.A. Mekhanika ustalostnogo razrusheniya: v 2 t. [Mechanics of fatigue failure: in 2 volumes]. Gomel, NPO “TRIBOFATIKA” Publ., 1994 (in Russ.).
  11. Standard of Belarus 1448–2004. Tribofatika. Metody iznosoustalostnykh ispytaniy. Ispytaniya na friktsionno-mekhanicheskuyu ustalost [Tribo-fatigue. Methods of wear-and-fatigue tests. Tests for mechano-sliding fatigue]. Minsk, GOSSTANDART Publ., 2004. 14 p. (in Russ.).
  12. Bogdanovich A.V., Lis I.N., Nedelko V.I., Yelovoy O.M. Zakonomernosti iznashivaniya silovoy sistemy “stal 45 – silumin” pri friktsionno-mekhanicheskoy ustalosti [Laws of wear process of “0.45 % carbon steel – siluminum” active system under mechano-sliding fatigue]. Aktualnye voprosy mashinovedeniya, 2012, pp. 363–366 (in Russ.).
  13. Stetsenko V.Yu., Rivkin A.I., Gutev A.P. Povyshenie friktsionnoy iznosostoykosti alyuminievo-kremnievykh splavov [Increasing the friction wear resistance of aluminum-silicon alloys]. Vestnik GGTU im. P.O. Sukhogo, 2011, no. 1, pp. 41–45 (in Russ.).