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http://dx.doi.org/10.7473/EC.2021.56.2.85

A Variety of Particles Including Tire Wear Particles Produced on the Road  

Jung, Ui Yeong (Department of Chemistry, Sejong University)
Choi, Sung-Seen (Department of Chemistry, Sejong University)
Publication Information
Elastomers and Composites / v.56, no.2, 2021 , pp. 85-91 More about this Journal
Abstract
In this study, different types and shapes of various particles produced on the asphalt pavement road were analyzed. Road dust at a bus stop was collected and was separated as per their sizes by using a sieve shaker. Tire-road wear particles (TRWPs), asphalt pavement wear particles (APWPs), mineral particles, plant-related particles, glass beads, glass particles, road paint wear particles, plastic particles, and fibers were observed herein. The types and shapes of the particles varied depending on their sizes. TRWPs larger than 500 ㎛ were not observed. TRWPs with a size of 212-500 ㎛ were rarely present, but many TRWPs with a size smaller than 212 ㎛ were observed. APWPs were observed for whole-particle sizes of below 1,000 ㎛. A variety of particles on the road would lead to lower friction between the tires and the road, thereby increasing the braking distance of vehicles. Most of the particles include mineral particles, glass particles, and APWPs with rough surfaces. Therefore, the abrasion of the tire tread would accelerate owing to friction with the tough particles.
Keywords
wear particles; road dust; tire-road wear particles; asphalt pavement wear particles; abrasion;
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1 M. L. Kreider, J. M. Panko, B. L. McAtee, L. I. Sweet, and B. L. Finley, "Physical and chemical characterization of tirerelated particles: Comparison of particles generated using different methodologies", Sci. Total Environ., 408, 652 (2010).   DOI
2 송영기, "타이어 이상 마모와 그 원인", 대한타이어공업협회, 154, 46 (1991).
3 C. Gunawardana, A. Goonetilleke, P. Egodawatta, L. Dawes, and S. Kokot, "Source characterization of road dust based on chemical and mineralogical composition", Chemosphere, 87, 163 (2012).   DOI
4 M. Kovochich, M. Liong, J. A. Parker, S. C. Oh, J. P. Lee, L. Xi, M. L. Kreider, and K. M. Unice, "Chemical mapping of tire and road wear particles for single particle analysis", Sci. Total Environ., 757, 144085 (2021).   DOI
5 A. Wik and G. Dave, "Occurrence and effects of tire wear particles in the environment - A critical review and an initial risk assessment", Environ. Pollut., 157, 1 (2009).   DOI
6 I. Jarlskog, A. M. Stromvall, K. Magnusson, M. Gustafsson, M. Polukarova, H. Galfi, M. Aronsson, and Y. A. Skold, "Occurrence of tire and bitumen wear microplastics on urban streets and in sweepsand and washwater", Sci. Total Environ., 729, 138950 (2020).   DOI
7 I. Park, H. Kim, and S. Lee, "Characteristics of tire wear particles generated in a laboratory simulation of tire/road contact conditions", J. Aerosol Sci., 124, 30 (2018).   DOI
8 P. J. Kole, A. J. Lohr, F. G. A. J. V. Belleghem, and A. M. J. Ragas, "Wear and tear of tyres: A stealthy source of microplastics in the environment", Int. J. Environ. Res. Public Health, 14, 1265 (2017).   DOI
9 T. Grosges, "Retro-reflection of glass beads for traffic road stripe paints", Opt. Mater., 30, 1549 (2008).   DOI
10 F. Amato, F. R. Cassee, H. D. V. D. Gon, R. Gehrig, M. Gustafsson, W. Hafner, R. M. Harrison, M. Jozwicka, F. J. Kelly, T. Moreno, A. S. H. Prevot, M. Schaap, J. Sunyer, and X. Querol, "Urban air quality: The challenge of traffic nonexhaust emissions", J. Hazard. Mater., 275, 31 (2014).   DOI
11 도로교통공단 교통과학연구원, "노면표시 반사성능 기준에 관한 연구", 2012.
12 B. B. Baltruschat, B. Kocher, F. Stock, and G. Reifferscheid, "Tyre and road wear particles (TRWP) - A review of generation, properties, emissions, human health risk, ecotoxicity, and fate in the environment", Sci. Total Environ., 733, 137823 (2020).   DOI
13 I. Jarlskog, A. M. Stromvall, K. Magnusson, H. Galfi, K. Bjorklund, M. Polukarova, R. Garcao, A. Markiewicz, M. Aronsson, M. Gustafsson, M. Norin, L. Blom, and Y. A. Skold, "Traffic-related microplastic particles, metals, and organic pollutants in an urban area under reconstruction", Sci. Total Environ., 774, 145503 (2021).   DOI