EN
Design and optimization of a semi-trailer extendable RUPD according to UNECE R58
Abstract
Extensive tests was carried out on the rear protection equipment of a tipper-type silobus semi-trailer. This study includes the design and optimization process of an extensible rear underrun protective device for O4 category semi-trailers. Material selection and structural design features were evaluated within the framework of harmonization with regulation 58 of the European Commission. Design verification was done in 4 stages. Two of them were carried out by computer simulation and the other two were carried out as physical tests. The aim of the study is to increase the safety of the vehicle and other road users in accidents resulting in the under-vehicle entry. Ensuring a rear underrun protective device design that meets the test force requirements found in UNECE R58 is a key performance indicator in research. Also, it is aimed at reducing carbon emissions in vehicles where the rear underrun protective device will be used by providing the regulation conditions at a minimum level, simplifying the rear underrun protective device design, and simplifying the design. The output of the optimization process is that the extensible rear underrun protective device design is strong enough to adapt to regulation conditions and light enough to keep efficiency at the highest level.
Keywords
References
- 1. UN Regulation No. 58 Revision 3, Available at: R058r3e.pdf (unece.org)
- 2. Ron Schindlera, Michael Jänschb, Heiko Johannsenb, András Bálinta, An analysis of European crash data and scenario specifi-cation for heavy truck safety system development within the AEROFLEX project, April 27-30, 2020, Helsinki, Finland
- 3. T L Smith, C Grover, T Gibson, W Donaldson and I Knight, De-velopment of test procedures, limit values, costs and benefits for proposals to improve the performance of rear underrun protec-tion for trucks
- 4. DEKRA Road Safety Report, Available at: DEKRA | Alles im grünen Bereich, 2018
- 5. VOLVO European Accident Research and Safety Report, Avail-able at: http://media1.fahrschule-online.de/sixcms/media.php/6028/European_Accident_Research_and_safety_report_2013.pdf
- 6. S. Pooudom et al., Design and Development of Truck Rear Un-derrun Protection Device, 2019
- 7. John Lambert, George Rechnitzer, Review Of Truck Safety: Stage 1: Frontal, Side And Rear Underrun Protection, ISBN: 0732614937
Details
Primary Language
English
Subjects
Automotive Safety Engineering
Journal Section
Research Article
Publication Date
June 30, 2022
Submission Date
March 21, 2022
Acceptance Date
May 23, 2022
Published in Issue
Year 2022 Volume: 2 Number: 2
APA
Binboğa, F., & Şimşek, E. H. (2022). Design and optimization of a semi-trailer extendable RUPD according to UNECE R58. Engineering Perspective, 2(2), 13-20. https://doi.org/10.29228/eng.pers.62436
AMA
1.Binboğa F, Şimşek EH. Design and optimization of a semi-trailer extendable RUPD according to UNECE R58. engineeringperspective. 2022;2(2):13-20. doi:10.29228/eng.pers.62436
Chicago
Binboğa, Fakı, and Ebubekir Hubeyb Şimşek. 2022. “Design and Optimization of a Semi-Trailer Extendable RUPD According to UNECE R58”. Engineering Perspective 2 (2): 13-20. https://doi.org/10.29228/eng.pers.62436.
EndNote
Binboğa F, Şimşek EH (June 1, 2022) Design and optimization of a semi-trailer extendable RUPD according to UNECE R58. Engineering Perspective 2 2 13–20.
IEEE
[1]F. Binboğa and E. H. Şimşek, “Design and optimization of a semi-trailer extendable RUPD according to UNECE R58”, engineeringperspective, vol. 2, no. 2, pp. 13–20, June 2022, doi: 10.29228/eng.pers.62436.
ISNAD
Binboğa, Fakı - Şimşek, Ebubekir Hubeyb. “Design and Optimization of a Semi-Trailer Extendable RUPD According to UNECE R58”. Engineering Perspective 2/2 (June 1, 2022): 13-20. https://doi.org/10.29228/eng.pers.62436.
JAMA
1.Binboğa F, Şimşek EH. Design and optimization of a semi-trailer extendable RUPD according to UNECE R58. engineeringperspective. 2022;2:13–20.
MLA
Binboğa, Fakı, and Ebubekir Hubeyb Şimşek. “Design and Optimization of a Semi-Trailer Extendable RUPD According to UNECE R58”. Engineering Perspective, vol. 2, no. 2, June 2022, pp. 13-20, doi:10.29228/eng.pers.62436.
Vancouver
1.Fakı Binboğa, Ebubekir Hubeyb Şimşek. Design and optimization of a semi-trailer extendable RUPD according to UNECE R58. engineeringperspective. 2022 Jun. 1;2(2):13-20. doi:10.29228/eng.pers.62436
Cited By
CFD Analysis of Sloshing in the Fuel Tank of a Heavy Vehicle with Emergency Braking System
International Journal of Automotive Science and Technology
https://doi.org/10.30939/ijastech..1360466Anti-Slip and Armor Effective Skid Chain with a Novel Tension Mechanism
International Journal of Automotive Science And Technology
https://doi.org/10.30939/ijastech..1599491