Comparison of SBR/BR Blend Compound and ESBR Copolymer Having Same Butadiene Contents |
Hwang, Kiwon
(Department of Polymer Science & Chemical Engineering, Pusan National University)
Lee, Jongyeop (Hankook Tire R&D Center) Kim, Woong (Department of Polymer Science & Chemical Engineering, Pusan National University) Ahn, Byungkyu (Department of Polymer Science & Chemical Engineering, Pusan National University) Mun, Hyunsung (Department of Polymer Science & Chemical Engineering, Pusan National University) Yu, Eunho (Department of Polymer Science & Chemical Engineering, Pusan National University) Kim, Donghyuk (Department of Polymer Science & Chemical Engineering, Pusan National University) Ryu, Gyeongchan (Department of Polymer Science & Chemical Engineering, Pusan National University) Kim, Wonho (Department of Polymer Science & Chemical Engineering, Pusan National University) |
1 | R. Peterson, C. Eckert, and C. Carr, "Tread compound effects in tire traction", The Physics of Tire Traction. ed. by F. H. Donald and L. B. Alan, p. 223-239, Springer, Boston, MA, 1974. |
2 | S. R. Smith and J. L. Koenig, "Solid-state carbon-13 NMR studies of vulcanized elastomers. IX. TMTD-vulcanized cis-1, 4-polybutadiene at 75.5 MHz", Rubber Chem. and Technol., 65, 1 (1992). |
3 | M. A. Mansilla, A. R. Garraza, L. Silva, W. Salgueiro, C. Macchi, A. J. Marzocca, and A. Somoza, "Evolution of the free volume and glass transition temperature with the degree of cure of polybutadiene rubbers", Polym. Testing, 32, 4 (2013). |
4 | M. Akiba and A. S. Hashim, "Vulcanization and crosslinking in elastomers", Progress in Polym. Sci., 22, 3 (1997). |
5 | S. Mihara, "Reactive processing of silica-reinforced tire rubber: new insight into the time-and temperature-dependence of silica rubber interaction." (2009). |
6 | Takino, H., et al. "Viscoelastic properties of elastomers and tire wet skid resistance", Rubber Chem. and Technol, 70, 4 (1997). |
7 | Olabis, Olagoke, "Polymer-polymer miscibility", Elsevier, 2012. |
8 | G. Severe and J. L. White, "Physical properties and blend miscibility of hydrogenated acrylonitrile-butadiene rubber", J. of Appl. Polym. Sci., 78, 8 (2000). |
9 | M. Hara and J. A. Sauer, "Synergism in mechanical properties of polymer/polymer blends", J. of Macromolecular Sci., 38, 2 (1998). |
10 | K. Grosch, "The rolling resistance, wear and traction properties of tread compounds", Rubber Chem. Technol., 69, 3 (1996). DOI |
11 | L. Nikiel, M. Gerspacher, H. Yang, and C. P. O'Farrell, "Filler dispersion, network density, and tire rolling resistance", Rubber Chem. Technol., 74, 2 (2001). |
12 | K. W. Lim, S. C. Ji, K. Y. Jung, T. J. Kim, and B. J. Lee, "Advanced Synthetic Technology for High Performance Energy Tire Tread Rubber", Elast. and Compos., 44, 3 (2009). |
13 | K. H. Kim, J. Y. Lee, S. H. Lim, G. H. Kwag, H. J. Paik, and W. H. Kim, "Effect of the amounts of glycidyl methacrylate on the mechanical and dynamic properties of styrene-butadiene-glycidyl methacrylate terpolymer/silica composites", Compos. Inter., 23, 7 (2016). |
14 | D. Cai, K. Yusoh, and M. Song, "The mechanical properties and morphology of a graphite oxide nanoplatelet/polyurethane composite", Nanotechnol. 20, 8 (2009). |
15 | A. J. Marzocca, S. Cerveny, and J. M. Mendez, "Some considerations concerning the dynamic mechanical properties of cured styrene-butadiene rubber/polybutadiene blends", Polym. Int., 49, 2 (2000). |
16 | R. S. Clough and J. L. Koenig, "Solid-state carbon-13 NMR studies of vulcanized elastomers. VII. Sulfur-vulcanized cis-1, 4 polybutadiene at 75.5 MHz", Rubber Chem. and Technol., 62, 5 (1989). |
17 | A. Ciesielski, "An introduction to rubber technology", Ed. by A. Ciesielski, Rapra Publishing, United Kingdom, 1999. |
18 | J. H. Park, C. S. Lee, and H. H. Park, "A Study on the Characteristics of IR/CR Rubber Blends by Surface Treatment with Chlorine", J. of the Korean Chem. Society, 54, 6 (2010). |
19 | K. Y. Jin, C. W. Nah, M. H. Lee, and K. U. Jeong, "Emerging Technologies of Elastomers", Elast. and Compos 43, 2 (2008). |
20 | E. J. Blok, P. H. Sandstrom, W. Hsu, and A. F. Halasa, U.S. Patent No. 5,994,448 (1999). |
21 | T. Fujimaki and N. Oshima, U.S. Patent No. 4,866,131 (1989). |
22 | D. A. Joyner, J. W. Kang, T. Hashimoto, K. Yuto, and B. L. Stuck, U.S. Patent No. 5,272,203 (1993). |
23 | K. W. Hwang, W. Kim, B. K. Ahn, H. S. Mun, E. H. Yu, D. H. Kim, G. C. Ryu, and W. H. Kim "Effect of surfactant on the physical properties and crosslink density of silica filled ESBR compounds and carbon black filled compounds" Elast. and Compos., 53, 2 (2018). |
24 | D. Alexander, "High-performance handling for street or track", ed. by D. Alexander, p. 6-16, Motorbooks International, Minneapolis, 2013. |
25 | B. Rampana, D. Tirelli, U. Kuhlmann, C. Cherif, C. Paul, R. A. Torun, and O. Diestel, U.S. Patent No. 8,640,753 (2014). |
26 | B. L. Kim, U.S. Patent Application No. 14/750,914 (2017). |
27 | R. Shishoo, "Textile advances in the automotive industry", ed. by R. Shinshoo, p. 3-17, CRC press, New York, 2008. |
28 | A. Roberts, "Lubrication studies of smooth rubber contacts", The Physics of Tire Traction. ed. by F. H. Donald and L. B. Alan, p. 179-196, Springer, Boston, MA, 1974. |
29 | W. Kim, B. K. Ahn, H. S. Mun, E. H. Yu, K. W. Hwang, and W. H. Kim, "Evaluation of BR Blending Methods for ESBR/silica Wet Masterbatch Compounds", Elast. and Compos., 52, 4 (2017). |
30 | K. D. Pyo and C. C. Park, "A Study on the friction and antiabrasion properties of rubber blends for shoes outsole", Elast. and Compos., 46, 4 (2011). |
31 | R. N. Kienle, E. S. Dizon, T. J. Brett, and C. F. Eckert, "Tread wear and wet skid resistance of butadiene-styrene elastomers and blends", Rubber Chem. and Technol., 44, 4 (1971). |
32 | A. G. Veirh, "A review of important factors affecting treadwear", Rubber Chem. and Technol., 65, 3 (1992). |
33 | A. G. Veirh, "Tire treadwear: The joint influence of , tread composition and environmental factors. A proposed 'two-mechanism' theory of treadwear", Polym. Testing 7, 3 (1987). |
34 | P. Corish, "Fundamental studies of rubber blends", Rubber Chem. Technol., 40, 2 (1967). |
35 | A. N. Gent and C. T. R. Pulford, "Mechanisms of rubber abrasion", J. of Appl. Polym. Sci., 28, 3 (1983). |
36 | J. Zhao and G. N. Ghebremeskel, "A review of some of the factors affecting fracture and fatigue in SBR and BR vulcanizates", Rubber Chem. and Technol., 74, 3 (2001). |
37 | A. J. Marzocca, S. Cerveny, and J. M. Mendez, "Some considerations concerning the dynamic mechanical properties of cured styrene-butadiene rubber/polybutadiene blends", Polym. Int., 49, 2 (2000). |
38 | N. Yoshimura and K. Fujimoto, "Structure of vulcanized and unvulcanized SBR/BR blends", Rubber Chem. Technol., 42, 4 (1969). |
39 | I. A. Amraee, A. Katbab, and S. Aghafarajollah, "Qualitative and quantitative analysis of SBR/BR blends by thermogravimetric analysis", Rubber Chem. Technol., 69, 1 (1996). |
40 | M. Inai, S. Aizawa, and M. Ito, "Phase control of BR/SBR blends by silica particles", e-J. of Soft Materials, 3 (2007). |
41 | A. Diaz-Barrios and E. Paredes, "Studies of interaction in silica/styrene-butadiene copolymers", J. of Appl. Polym. Sci., 27, 11 (1982). |