Influence of Carbon Black Contents and Rubber Compositions on Formation of Wear Debris of Rubber Vulcanizates |
Choi, Sung-Seen
(Department of Chemistry, Sejong University)
Yang, Seong Ryong (Hankook Tire & Technology Company) Chae, Eunji (Department of Chemistry, Sejong University) Son, Chae Eun (Department of Chemistry, Sejong University) |
1 | F. Sommer, V. Dietze, A. Baum, J. Sauer, S. Gilge, C. Maschowski, and R. Giere, "Tire abrasion as a major source of microplastics in the environment", Aerosol Air Qual. Res., 18, 2014 (2018). DOI |
2 | S. Wagner, T. Huffer, P. Klockner, M. Wehrhahn, T. Hofmann, and T. Reemtsma, "Tire wear particles in the aquatic environment - A review on generation, analysis, occurrence, fate and effects", Wear Res., 139, 83 (2018). DOI |
3 | M. Dall'Osto, D. C. S. Beddows, J. K. Gietl, O. A. Olatunbosun, X. Yang, and R. M. Harrison, "Characteristics of tyre dust in polluted air: Studies by single particle mass spectrometry (ATOFMS)", Atmos. Environ., 94, 224 (2014). DOI |
4 | J. M. Panko, K. M. Hitchcock, G. W. Fuller, and D. Green, "Evaluation of tire wear contribution to PM2.5 in urban environments", Atmosphere, 10, 99 (2019). DOI |
5 | M. Salehi, J. W. M. Noordermeer, L. A. E. M. Reuvekamp, W. K. Dierkes, and A. Blume, "Measuring rubber friction using a Laboratory Abrasion Tester (LAT100) to predict car tire dry ABS braking", Tribol. Int., 131, 191 (2019). DOI |
6 | K. A. Grosch, "Rubber abrasion and tire wear", Rubber Chem. Technol., 81, 470 (2008). DOI |
7 | S-S. Choi and J-C. Kim, "Lifetime prediction and thermal aging behaviors of SBR and NBR composites using crosslink density changes", J. Ind. Eng. Chem., 18, 1166 (2012). DOI |
8 | P. J. Flory, "Statistical mechanics of swelling of network structures", J. Chem. Phys, 18, 108 (1950). DOI |
9 | Rubber, vulcanized or thermoplastic - Determination of resistance to abrasion using a driven, vertical abrasive disc, ISO 23233:2009. |