Article

Received 01.08.2022

Revised 19.11.2022

Accepted 15.12.2022

Retrieved from Iss. 112, 2022

Pages 93 -103

Moroz, T. (2022). ANALYSIS OF QUALITY INDICATOR DIAGNOSTIC METHODS OF ROADS. Automobile Roads and Road Construction, (112), 93-103. https://doi.org/10.33744/0365-8171-2022-112-093-103

ANALYSIS OF QUALITY INDICATOR DIAGNOSTIC METHODS OF ROADS

Taras Moroz

The purpose of the scientific work is the study of various methods of diagnosing roads to determine their operational condition. In Ukraine, there are concepts for the implementation of pavement condition management systems based on defined transport and operational parameters of the highway, however, for various reasons, they do not find wide practical application, and the procedures for collecting, accumulating data and analyzing the obtained results do not have a systematic approach. Scientific novelty and practical significance. The study reviewed the main methods and equipment used to determine the transport and operational indicators of highways. The most effective and productive methods and mechanisms of their application are determined, as well as the advantages and disadvantages are given

transport and operational indicators; operational maintenance; equality; strength; defectiveness, roughness, adhesion coefficient
  1. Asphalt Institute. (1983). Asphalt overlays for highway and street rehabilitation (Manual Series No. 17, MS-17). Maryland: The Asphalt Institute.
  2. Nikolaides, A. (2015). Highway engineering: Pavements, materials and control of quality. Boca Raton: CRC Press.
  3. Highways Agency. (2008). Design manual for roads and bridges (DMRB). Volume 7: Pavement design and maintenance. Section 3, Part 2, HD 29/08. London: Department for Transport, Highways Agency.
  4. Enhanced data-gathering equipment edge. (n.d.). Retrieved from https://www.concreteconstruction.net/products/enhanced-data-gathering-equipment-edge_o.
  5. HMP PDGpro – Pavement deflection gauge. (n.d.). Retrieved from https://www.hmp-online.com/files/dokumente/1.04%20Prospekt%20HMP%20PDGpro%20-%20EN%20web.pdf.
  6. Lundberg, T., Andrén, P., Eriksson, O., & Sjögren, L. (2018). New technology for road surface measurement: Transverse profile and rut depth (p. 138). Linköping: Swedish National Road and Transport Research Institute (VTI).
  7. The Dynatest Multi Functional Vehicle (MFV) combines the functionality of the Dynatest Road Surface Profiler (RSP) with the Laser Crack Measurement System (LCMS) from Pavemetrics. (n.d.). Retrieved from Dynatest official documentation (no specific URL provided in source).
  8. Stepura, V.S., Bieliatynskyi, A.O., & Kuzhel, N.V. (2013). Fundamentals of operation of highways and airfields. Kyiv: National Aviation University (NAU).
  9. DSTU 2587:2021. (2021). Road traffic safety. Road marking. General technical specifications. Kyiv: State Standards of Ukraine.
  10. DSTU 3587:2022. (2022). Road traffic safety. Highways. Requirements for operational condition. Kyiv: State Standards of Ukraine.
  11. DSTU 4100:2021. (2021). Road traffic safety. Road signs. General technical specifications. Rules of application. Kyiv: State Standards of Ukraine.
  12. DSTU 8745:2017. (2017). Highways. Methods for measuring unevenness of subbase and pavement surface. Kyiv: State Standards of Ukraine.
  13. DSTU 8746:2017. (2017). Highways. Methods for measuring surface friction properties of road pavement. Kyiv: State Standards of Ukraine.
  14. DSTU 8954:2019. (2019). Highways. Assessment of the defect level of road pavement. Kyiv: State Standards of Ukraine.
  15. DSTU B A.1.1-100:2013. (2013). Highways. Terms and definitions of concepts. Kyiv: State Standards of Ukraine.
  16. DSTU B V.2.3-42:2016. (2016). Highways. Methods for determining deformation characteristics of subgrade and road pavement. Kyiv: State Standards of Ukraine.
  17. M 218-02071168-639:2008. (2008). Methodology for assessing the condition of road pavement surfaces using the automated video diagnostics system “OKO”. Kyiv: State Road Service of Ukraine (Ukravtodor).
  18. SOU 45.2-00018112-080:2011. (2011). Highways. Assessment and registration of the condition of road pavements and technical means of highways using automated video diagnostics systems. Kyiv: State Road Service of Ukraine (Ukravtodor).

https://doi.org/10.33744/0365-8171-2022-112-093-103