Ocena wpływu materiału tarczy znaku drogowego na występowanie efektu roszenia

Rafał Lusa; Paweł Skierczyński; Joanna Prasalska-Nikoniuk; Jolanta Kraszewska

doi:10.7409/rabdim.021.007

Published: 2021-06-23

Vol. 20 No. 2 (2021)

Evaluation of the impact of road sign material on the occurrence of dew

Rafał Lusa , Paweł Skierczyński , Joanna Prasalska-Nikoniuk , Jolanta Kraszewska

Section: Articles

https://doi.org/10.7409/rabdim.021.007

Abstract

Under specific conditions water vapor condensates on traffic signs (dew), resulting in deterioration of retroreflective properties of the reflective film. The dew is visible in the form of black patches, which may render the sign illegible. The objective of the presented research was to limit dew formation through the use of materials with various thermal conductivity and determine the impact of material on intensity and speed of condensation. The tests were performed at a field test site, using traffic sign blanks made of various materials. Each sign was divided into 4 sections, using 2 types of retroreflective films (in 3 colors) with or without anti-dew film. The occurrence of dew was recorded by performing serial photographs of each sign. Luminance, coefficient of retroreflection and temperature distribution were measured and analyzed in terms of their changes in time. The results of the research confirmed that at the chosen field test site the impact of the materials on the intensity of dew formation was insubstantial.

Keywords:

coefficient of retroreflection, dew, retroreflective films, road signs.

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Lusa, R., Skierczyński, P., Prasalska-Nikoniuk, J., & Kraszewska, J. (2021). Evaluation of the impact of road sign material on the occurrence of dew. Roads and Bridges - Drogi I Mosty, 20(2), 115–124. https://doi.org/10.7409/rabdim.021.007

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References

Kirk A.R., Hunt E.A., Brooks E.W.: Factors affecting sign retroreflectivity. Oregon Department of Transportation, Salem, 2001
Google Scholar

de Waard D., Brookhuis K., Mesken J.: Evaluation of legibility of not properly reflecting signs. International Journal of Industrial Ergonomics, 35, 7, 2005, 645-651
Google Scholar

Khalilikhah M., Heaslip K.: Analysis of factors temporarily impacting traffic sign readability. International Journal of Transportation Science and Technology, 5, 2, 2016, 60-67
Google Scholar

Chan-Young Lee, Hee-Man Kang, Tae-Sun Chang, Hyeon-Seok Lee: A Study on Material Properties Required for Quality Standard Establishment of Anti-Dew Film for Traffic Sign. Proceedings of the KSRE Conference 2010, Korean Society of Road Engineers, 489-492
Google Scholar

Hutchinson J.W., Pullen T.A.: Performance of signs under dew and frost conditions. Transportation Research Board Record, 681, 1978, 16-20
Google Scholar

Woltman H.L.: A Study of Dew and Frost Formation on Retro-Reflectors. Highway Research Record, 70, 1965, 63-66
Google Scholar

Beysens D.: The formation of dew. Atmospheric Research, 39, 1-3, 1995, 215-237
Google Scholar

Beysens D.: Dew nucleation and growth. Comptes Rendus Physique, 7, 9-10, 2006, 1082-1100
Google Scholar

Kidron G.J.: The effect of substrate properties, size, position, sheltering and shading on dew: An experimental approach in the Negev Desert. Atmospheric Research, 98, 2-4, 2010, 378-386
Google Scholar

Hildebrand E., Bergin T.: Traffic sign retroreflectivity and the canadian environment. CITE Conference, 2004, 24p
Google Scholar

Hildebrand E.: Reductions in Traffic Sign Retroreflectivity Caused by Frost and Dew. Transportation Research Record, 1844, 2003, 79-84, DOI: 10.3141/1844-10
Google Scholar

Khrapova M.: Determining the influence of factors on retroreflective properties of traffic signs. Agronomy Research, 17, S1, 2019, 1041-1052
Google Scholar

Yun D., Park J., Sung J., Kang W.: A Study on Laboratory Testing and Performance Evaluation Method for the Development of an Anti-dew Road Sign. Journal of the Eastern Asia Society for Transportation Studies, 10, 2013, 1598-1613
Google Scholar

Patent WO1997031357A1: Dew-resistant retroreflective traffic sign having a textured glass surface
Google Scholar

Gutiérrez A., Castillo A., Gómez J.M., Gutiérrez J.M., García-Cabot A.: Traffic Signs. World Academy of Science, Engineering and Technology International Journal of Humanities and Social Sciences, 7, 3, 2013, 543-546
Google Scholar

Kornalewski L., Kowalska-Sudyka M., Ledwolorz A.: Proposal of post evaluation methodology for the impact of a new road investment project on road safety. Roads and Bridges - Drogi i Mosty, 19, 3, 2020, 183-197, DOI: 10.7409/rabdim.020.012
Google Scholar

Jaździk-Osmólska A.: Pandora – valuation method of social costs of road accidents in Poland. Roads and Bridges - Drogi i Mosty, 14, 2, 2015, 133-142, DOI: 10.7409/rabdim.015.009
Google Scholar

CIE 54.2-2001 Retroreflection: Definition and Measurement. International Commission on Illumination (CIE), 2001
Google Scholar

PN-EN 12899-1:2010 Stałe pionowe znaki drogowe - Część 1: Znaki stałe
Google Scholar

Żagan W.: Podstawy techniki świetlnej. Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa, 2005
Google Scholar

Rafał Lusa

rlusa@ibdim.edu.pl

Affiliation:

Road and Bridge Research Institute, 1 Instytutowa Str., 03-302 Warsaw

Paweł Skierczyński

Affiliation:

Road and Bridge Research Institute, 1 Instytutowa Str., 03-302 Warsaw

Joanna Prasalska-Nikoniuk

Affiliation:

Road and Bridge Research Institute, 1 Instytutowa Str., 03-302 Warsaw

Jolanta Kraszewska

Affiliation:

Road and Bridge Research Institute, 1 Instytutowa Str., 03-302 Warsaw

Evaluation of the impact of road sign material on the occurrence of dew

Abstract

Keywords:

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Rafał Lusa

Paweł Skierczyński

Joanna Prasalska-Nikoniuk

Jolanta Kraszewska