Open Access
MATEC Web Conf.
Volume 375, 2023
21st International Conference Diagnostics of Machines and Vehicles “Hybrid Multimedia Mobile Stage”
Article Number 01002
Number of page(s) 11
Section Selected Operational Problems of Hybrid Multimedia Mobile Stages
Published online 08 February 2023
  1. Automobile portal: vopros-otvet [Electronic resource]. URL: (date of application: 19.12.20 21. [Google Scholar]
  2. Mazur V.V. Automobile wheels with airless tires / V.V. Mazur, A.V. Gailyshyn // Avtotransportnoe predpriyatie. 2012. P. 36. [Google Scholar]
  3. Bridgestone goes airless in tire concept for Tokyo show [Electronic resource]. Access mode: [Google Scholar]
  4. US Military begins rolling on airless tires [Electronic resource]. Access mode: [Google Scholar]
  5. New: airless tires from Michelin [Electronic resource]. Access mode: Date of application: 03.12.18. [Google Scholar]
  6. Polaris is Launching The First ATV With Airless Tires [Electronic resource]. Access mode: [Google Scholar]
  7. Automobile portal: crossovers [Electronic resource]. URL: (access date: 12/19/2021). [Google Scholar]
  8. Technical regulations of the Customs Union TR TS 018/2011 “On the safety of wheeled vehicles”. [Google Scholar]
  9. U. Suripa, A. Chaikittiratana (2008) Finite element stress and strain analysis of a solid tire Journal of Achievements in Materials and Manufacturing Engineering Vol.31, issue 2 [Google Scholar]
  10. Manga, KK Computational method for solving spoke dynamics on high speed rolling Tweel™ / KK Manga. Thesis: Clemson University, 2008. 106 p. [Google Scholar]
  11. Kurowski Paul M. Engineering Analysis with SOLIDWORKS Simulation 2020 // Design Generator Inc. 2020. 604 p. ISBN 978-1-63057-325-6. [Google Scholar]
  12. Help on SolidWorks. Modal analysis of the time diagram. URL: (access date 10/20/2020). [Google Scholar]
  13. Blekhman I.I. Vibrational mechanics. M.: Fizmatlit, 1994. 391 p. [Google Scholar]
  14. Evzovich, V.E. Automobile tires, disks and rims / V.E. Evzovich, P.G. Raibman. M.: Avtopolis-plus, 2010. 144 p. [Google Scholar]
  15. Walter, JD Energy losses in tires / JD Walter, FS Conant // Tire Science and Technology. 1974. Vol. 2. – P. 235–260. [Google Scholar]
  16. Clark, SK Rolling resistance of pneumatic tires / SK Clark // Tire Science and Technology. 1978. Vol. 6. No. 3. P. 163–175. [Google Scholar]
  17. Perepechko I.I. Introduction to polymer physics / I.I. Perepechko M.: Khimiya, 1978. 312 c. [Google Scholar]
  18. Ward, IM Mechanical Properties of Solid Polymers / IM Ward, J. Sweeney. John Wiley & Sons, 2012. 480 p. [Google Scholar]
  19. Sokolov, S. Analysis of the heat state of pneumatic tires by the finite element method / S. Sokolov // Journal of Machinery Manufacture and Reliability. 2009. Vol. 38. No. 3. P. 310–314. [Google Scholar]
  20. Eremin, H.P. Experimental study of thermal load of harmless wheels / H.P. Eremin, A.B. Kartashov, A.A. Smirnov // Izvestiya vysshikh uchebnykh zavedeni. Mechanical engineering Transport and power engineering. – 2015. – Vol. 4. – No. 661. – C. 49–56. [Google Scholar]
  21. Namjool, M. An experimentally validated FE analysis for transient thermal behavior of the rolling tire / M. Namjoo, H. Golbakhshi, H. Momeni-Khabisi // International Journal of Automotive Engineering. 2016. Vol. 6. No. 3. P. 2111–2120 . [Google Scholar]
  22. Lin, Y.-J. Temperature prediction of rolling tires by computer simulation / Y.-J. Lin, S.-J. Hwang // Mathematics and Computers in Simulation. – 2014. – Vol. 67. – P. 235–249. [Google Scholar]
  23. Eremin, H.P. Theoretical assessment of performance of prospective constructions of non-pneumatic tires / H.P. Eremin, A.B. Kartashov // Engineering journal: science and innovations. – 2012. – No. 10 (10). [Google Scholar]
  24. Deformation and heat generation in a nonpneumatic tire with lattice spokes / S. Yoo, Md S. Uddin, H. Heo et al. // SAE Technical Papers. – 2015. – P. 1–10. [Google Scholar]
  25. Rao, KN A sensitivity analysis of design attributes and operating conditions on tire operating temperatures and rolling resistance using finite element analysis / KN Rao, RK Kumar, P. Bohara // Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering. 2006. Vol. 220. No. 5. P. 501–517. [Google Scholar]
  26. Pacejka HB Tire and Vehicle Dynamics, Butterworth-Heinemann, Oxford, 2002. [Google Scholar]
  27. Barum (2011-2012) Technical data book of Car tires. [Google Scholar]
  28. Ward, IM Mechanical Properties of Solid Polymers / IM Ward, J. Sweeney. – John Wiley & Sons, 2012. – 480 p. [Google Scholar]
  29. Tonuk E and Unlusoy YS, “Prediction of automobile tire cornering force characteristics by finite element modeling and analysis“, Comput Struct, Vol. 79, 2001, pp. 1219–32. [CrossRef] [Google Scholar]
  30. A finite element algorithm for the prediction of steady-state temperatures of rolling tires / KV Narasimha Rao, R. Krishna kumar, PC Bohara, R. Mukhopadhyay // Tire Science and Technology. 2006. Vol. 34. No. 3. p. 195–214. [Google Scholar]
  31. Aagaard, BT Finite-Element Simulations of Earthquakes. PhD Thesis, California Institute of Technology: Pasadena, California, 2000. [Google Scholar]
  32. ANSYS, Inc.: ANSYS Structural Analysis Guide, ANSYS, Inc.: Canonsburg, PA 2004 [Google Scholar]
  33. R. Feynman, R. Leighton, M. Sands, Feynman lectures on physics, vol. 5, “Electricity and magnetism”, trans. with English, edited by Ya. A. Smorodinsky, ed. 3, M., Editorial URSS, 2004, ISBN 5-354-00703-8 (Electricity and magnetism), ISBN 5-354-00698-8 (Complete work), ch. 4 “Electrostatics”, item 1 “Statics”, p. 70-71. [Google Scholar]

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