Reliability Analysis of Bus Steering System

  • A. N. Savkin
  • K. A. BadikovEmail author
  • A. A. Sedov
Conference paper
Part of the Lecture Notes in Mechanical Engineering book series (LNME)


Most of steering problems were related with a pitman arm and a steering joint. For these parts, using the example of two buses the bending stress and safety margin were determined with the help of virtual 3D models. A dangerous section and maximum loads were determined, the calculation of bending under static loading was carried out. The proposals were drafted that aimed at improving the operational reliability of the steering. The problem of road safety was one of the most significant in modern conditions. An important contribution in safety was made by the reliability of vehicles, which, in turn, was associated with the development of their design, and also the technical condition. An especially important thing was to ensure the reliability of vehicles that carry passengers.


Steering joint Steering arm Bending stress Strength calculation 


  1. 1.
    Lysov MI (1972) Car steering. Engineering, Moscow, p 344Google Scholar
  2. 2.
    Narbut AN (2007) Cars: workflows and payment mechanisms and systems: a textbook for students. Executive Procedure Institutions. Publishing Center “Academy”, Moscow, 256 pGoogle Scholar
  3. 3.
    Klepik NK (1995) Statistical treatment of experimental problems in the road transport. In: Procedures manual. Volgograd State Technical University, Volgograd, 95 pGoogle Scholar
  4. 4.
    Standart 52302-2004 (2005) Vehicles. Handling and stability. Publishing House of Standards, Moscow, 27 pGoogle Scholar
  5. 5.
    Bukharin NA, Prozorov VS, Schukin MM (1973) Cars. Design load conditions, workflows, strength units of the automobile. In: Procedures manual for schools. Engineering, Leningrad, 504 pGoogle Scholar
  6. 6.
    Badikov KA, Tyshkevich VN, Chernova GA (2013) Calculation of endurance ball stud steering bus “Volzhanin-32901”. Mod Probl Russ Transp Complex 4(4):172–177Google Scholar
  7. 7.
    Pavlyuk AS, Safronov S (2013) Influence of design parameters of the steering gear to the steering mobile machine. Polzunovsky Gaz 4(3):181–184Google Scholar
  8. 8.
    Standard 23207-08 (194) System maintenance and repair of equipment. Selecting and setting parameters maintainability. General requirements. Publishing House of Standards, Moscow, 17 pGoogle Scholar
  9. 9.
    Habardin AV, Habardin VN, Kuzmin AE, Chubareva MV, Gorbunov TL (2011) Free wheeling steering wheel as a parameter of a technical condition of a steering. Bull Irkutsk State Agric Acad 43:154–160Google Scholar
  10. 10.
    Chernova GA, Badikov KA, Tyshkevich VN (2014) Evaluation of the strength of the ball joint steering bus. Problems of technical operation and service centers of the rolling stock of automobile vehicles: Sat. scientific. tr.: Based on the materials. In: 72th scientific-method. and scientific-issled. Conference MADI, Moscow State Automobile and Road. Technical University (MADI), pp 98–102Google Scholar
  11. 11.
    Larry J (1976) Segerlind: applied finite element analysis, pp 232–239Google Scholar
  12. 12.
    Chernova GA, Tyshkevich VN, Badikov KA, Moseec Yu, Zabolotnyi RV (2014) Evaluation of the strength of steering control bus. In: Proceedings VSTU. A series of “Land transport systems.” vol 8: Hi. Sat. scientific. Art 3(130):47–50Google Scholar
  13. 13.
    Standard 23207-78 (1981) Fatigue resistance. Basic terms, definitions and symbols. Publishing House of Standards, Moscow, 49 pGoogle Scholar
  14. 14.
    Zaslavsky BV (1986) Short Course materials resistance. Tutorial for aviation specialties. Engineering, Moscow, p 328Google Scholar
  15. 15.
    Migal VD (2013) Technical diagnostics of cars: a handbook in 6 volumes, vol 1, Manufacturing defects and operational faults, 2nd edn, Sr. OOO “CPI” Mask, Moscow, 373 pGoogle Scholar
  16. 16.
    Migal VD (2013) Technical diagnostics of cars: a handbook in 6 volumes, vol 3. Methods of diagnosing, 2nd edn, Sr. OOO “CPI” Mask, Moscow, 548 pGoogle Scholar
  17. 17.
    Vernyaev MA, Filkin NM, Shakurov DC (2012) Calculations ball joint suspension of the car. Russian forests and farming in them 1–2(42–43):22–23Google Scholar
  18. 18.
    Abaimov RV (2007) Diagnosis of road transport: Sat. Descriptions of the laboratory. Papers to prepare graduates/comp.; SSI, Syktyvkar, 60 pGoogle Scholar
  19. 19.
    Menshenin GG (2006) Plastic bags PA workshop on reliability theory and diagnosis part II. In: Procedures manual. VSTU, Volgograd, 230 pGoogle Scholar
  20. 20.
    Terentiev VF (2002) Fatigue strength of metal alloys. Internet Eng, Moscow, p 288Google Scholar
  21. 21.
    Chernova GA, Tyshkevich VN, Badikov KA, Moiseev YuI, Zabolotniy RV (2014) Estimation of operation capability of the ball pin of the “Volzhanin-32901” bus with relation to fatigue strength. J Mach Manuf Reliab 43(4):294–297CrossRefGoogle Scholar

Copyright information

© Springer Nature Switzerland AG 2020

Authors and Affiliations

  1. 1.Volgograd State Technical University (VSTU)VolgogradRussia

Personalised recommendations