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Calculation of the Optimal Braking Force Distribution in Three-Axle Trailers with Tandem Suspension Cover

Calculation of the Optimal Braking Force Distribution in Three-Axle Trailers with Tandem Suspension

Acta Mechanica et Automatica
Volume 16 (2022): Issue 3 (September 2022)
By: Zbigniew Kamiński  
Open Access
|May 2022

References

  1. 1. Agriculture Equipment Brochure. 2015. Available from: http://www.bpwtranspec.com.au/wp-content/uploads/2013/03/BPW_Agriculture_Equipment_brochure.pdf
    Search in Google ScholarBack to article
  2. 2. Burkardt J. The Hammersley Quasi Monte Carlo (QMC) Sequence. Available from: https://people.sc.fsu.edu/~jburkardt/m_src/hammersley/hammersley.html
    Search in Google ScholarBack to article
  3. 3. Colaert Essieux. General Catalogue. 2019. Available from: http://www.colaertessieux.fr/PDF/COLAERT-ESSIEUX-GENERALCATALOGUE.pdf
    Search in Google ScholarBack to article
  4. 4. Day A.J. Braking of Road Vehicles. Oxford: Butterworth-Heinemann, 2014.
    Search in Google ScholarBack to article
  5. 5. Dimov IT. Monte Carlo Methods for Applied Scientists. World Scientific; 2007. Available from: https://www.worldscientific.com/worldscibooks/10.1142/281310.1142/2813
    Search in Google ScholarBack to article
  6. 6. European Commission. Commission Delegated Regulation (EU) 2015/68 of 15 October 2014 supplementing Regulation (EU) No 167/2013 of the European Parliament and of the Council with regard to vehicle braking requirements for the approval of agricultural and forestry vehicles. 2015.
    Search in Google ScholarBack to article
  7. 7. Fancher P, Winkler C. Directional performance issues in evaluation and design of articulated heavy vehicles. Vehicle System Dynamics. 2007;45(7–8):607–47.10.1080/00423110701422434
    Search in Google ScholarBack to article
  8. 8. Gillmann R. Axle spacing and load equivalency factors. Transportation Research Record: Journal of the Transportation Research Board. 1999;1655(1):227–32.10.3141/1655-29
    Search in Google ScholarBack to article
  9. 9. Glišović J, Lukić J, Šušteršič V, Ćatić D. Development of tractors and trailers in accordance with the requirements of legal regulations. In: 9th International Quality Conference. Faculty of Engineering, University of Kragujevac; 2015; 193–202.
    Search in Google ScholarBack to article
  10. 10. Goodarzi A, Behmadi M, Esmailzadeh E. An optimised braking force distribution strategy for articulated vehicles. Vehicle System Dynamics. 2008;46(sup1):849–56.10.1080/00423110802037107
    Search in Google ScholarBack to article
  11. 11. Ha, DV, Tan, VV., Niem, VT., Sename, O. Evaluation of Dynamic Load Reduction for a Tractor Semi-Trailer Using the Air Suspension System at all Axles of the Semi-Trailer. Actuators 2022;11:12. https://doi.org/10.3390/act1101001210.3390/act11010012
    Search in Google ScholarBack to article
  12. 12. Hammersley JM. Monte Carlo methods for solving multivariable problems. Numerical Properties of Functions of Moe Than One Independent Variable. 1960;86(3):844–74.10.1111/j.1749-6632.1960.tb42846.x
    Search in Google ScholarBack to article
  13. 13. Harwood DW. Review of Truck Characteristics as Factors in Roadway Design. Washington, D.C.: Transportation Research Board; 2003. Available from: https://www.nap.edu/catalog/23379
    Search in Google ScholarBack to article
  14. 14. Heisler H. 10 - Suspension. In: Heisler H, editor. Advanced Vehicle Technology. 2nd ed. Oxford: Butterworth-Heinemann; 2002; 368–449.10.1016/B978-075065131-8/50011-7
    Search in Google ScholarBack to article
  15. 15. ISO 8855:2011. Road vehicles — Vehicle dynamics and roadholding.
    Search in Google ScholarBack to article
  16. 16. Kamiński Z, Radzajewski P. Calculations of the optimal distribution of brake force in agricultural vehicles categories R3 and R4. Eksploat i Niezawodn. 2019;21(4):645–53.10.17531/ein.2019.4.14
    Search in Google ScholarBack to article
  17. 17. Kroese DP, Taimre T, Botev ZI. Handbook of Monte Carlo Methods. Wiley; 2011.10.1002/9781118014967
    Search in Google ScholarBack to article
  18. 18. Limpert R. Engineering Design Handbook: Analysis and Design of Automotive Brake Systems. HQ, US Army Materiel Development and Readiness Command; 1976.
    Search in Google ScholarBack to article
  19. 19. Limpert R. An investigation of the brake force distribution on tractorsemitrailer combinations. Society of Automotive Engineers; 1971. Available from: https://www.sae.org/content/710044/10.4271/710044
    Search in Google ScholarBack to article
  20. 20. Miatluk M, Kaminski Z. Brake systems of road vehicles. Calculations. Bialystok: Wydawnictwo Politechniki Bialostockiej; 2005.
    Search in Google ScholarBack to article
  21. 21. Mital A, Desai A, Subramanian A, Mital A. Product development: A structured approach to consumer product development, design, and manufacture. 2nd ed. Elsevier Science; 2014.
    Search in Google ScholarBack to article
  22. 22. Morton DP, Popova E. Monte-Carlo Simulations for Stochastic Optimization. In: Encyclopedia of Optimization. Boston, MA: Springer US; 1529–37.10.1007/0-306-48332-7_305
    Search in Google ScholarBack to article
  23. 23. NHTSA heavy duty vehicle brake research program: Report no. 1 ‒ stopping capability of air braked vehicles. National Highway Traffic Safety Administration; 1985. by Richard W. Radlinski and S. F. Williams. Available from: https://books.google.pl/books?id=pfbZvgEACAAJ
    Search in Google ScholarBack to article
  24. 24. Nunney MJ. Light and Heavy Vehicle Technology. Routledge; 2007.10.4324/9780080465753
    Search in Google ScholarBack to article
  25. 25. Pierce PR. Controlled load transfer during braking on a four-spring trailer suspension. Society of Automotive Engineers; 1985. Available from: https://www.sae.org/content/852344/10.4271/852344
    Search in Google ScholarBack to article
  26. 26. [26] Road Safety Authority. Revised Standards for Agricultural Vehicles RSA Guide. Ballina, Republic of Ireland: Road Safety Authority; 2015.
    Search in Google ScholarBack to article
  27. 27. Sun B, Wang P, Gao S, Yu J, Wang Z. Development of braking force distribution strategy for Dual-Motor-Drive Electric Vehicle. Journal of Engineering and Technological Sciences. 2018;50(2):179–201.10.5614/j.eng.technol.sci.2018.50.2.3
    Search in Google ScholarBack to article
  28. 28. Tang G, Zhao H, Wu J, Zhang Y. Optimization of braking force distribution for three-axle truck. Society of Automotive Engineers; 2013. Available from: https://www.sae.org/content/2013-01-0414/10.4271/2013-01-0414
    Search in Google ScholarBack to article
  29. 29. Titan Agricultural Catalogue – Tires, wheels, tracks, axles. 2015. Available from: http://titanaust.com.au/wp-content/uploads/2015/10/TITA0053-C1L3P2-Agricultural-Catalogue-COMPLETE_LR.pdf
    Search in Google ScholarBack to article
  30. 30. Van Straelen B. Lastverlagerung und Bremskraftverteilung bei Einachs- und Doppelachsanhängern. Grundlagen der Landtechnik. 1983;33(6):183–9.
    Search in Google ScholarBack to article
  31. 31. Venkataraman P. Applied Optimization with MATLAB Programming. 2nd ed. Hoboken: Wiley & Sons, Inc.; 2009
    Search in Google ScholarBack to article
  32. 32. WABCO. Pneumatic Braking System Agriculture and Forestry. Product Catalogue. 2017. Available from: https://www.wabcocustomercentre.com/catalog/docs/8150100823.pdf
    Search in Google ScholarBack to article
  33. 33. Wong T-T, Luk W-S, Heng P-A. Sampling with Hammersley and Halton Points. Journal of Graphics Tools. 1997;2(2):9–24.10.1080/10867651.1997.10487471
    Search in Google ScholarBack to article
  34. 34. Xu J, Zhang X. Optimization algorithm for vehicle braking force distribution of front and rear axles based on brake strength. 12th World Congress on Intelligent Control and Automation (WCICA). IEEE; 2016; 3353–60.10.1109/WCICA.2016.7578257
    Search in Google ScholarBack to article
  35. 35. Zhao LH, Cao QG, Li YS, Gao NZ. An optimization technique of braking force distribution coefficient for truck. Proceedings 2011 International Conference on Transportation, Mechanical, and Electrical Engineering (TMEE). IEEE. 2011;1784–7.
    Search in Google ScholarBack to article
DOI: https://doi.org/10.2478/ama-2022-0023 | Journal eISSN: 2300-5319 | Journal ISSN: 1898-4088
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Language: English
Page range: 189 - 199
Submitted on: Feb 8, 2022
|
Accepted on: Mar 16, 2022
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Published on: May 16, 2022
Published by: Bialystok University of Technology
In partnership with: Paradigm Publishing Services
Publication frequency: 4 issues per year
Keywords:
agriculture trailer,
tandem axle,
air braking system,
braking force distribution,
optimization
Related subjects:
Engineering,
Electrical engineering,
Electronics,
Mechanical engineering,
Mechanics,
Bioengineering and biomedical engineering,
Biomechanics,
Civil engineering,
Environmental engineering

© 2022 Zbigniew Kamiński, published by Bialystok University of Technology
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

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