1 |
A. A. Hassan, K. Formela, and S. Wang, "Enhanced interfacial and mechanical performance of styrene-butadiene rubber/silica composites compatibilized by soybean oil derived silanized plasticization", Composites Science and Technology, 108271 (2020).
|
2 |
M. Hassanabadi, M. Najafi, G. H. Motlagh, and S. S. Garakani, "Synthesis and characterization of end-functionalized solution polymerized styrene-butadiene rubber and study the impact of silica dispersion improvement on the wear behavior of the composite", Polym. Test, 85, 106431 (2020).
|
3 |
T. Kataoka, P. B. Zetterlund, and B. Yamada, "Effects of storage and service on tire performance: oil component content and swelling behavior", Rubber Chem. Technol., 76, 507 (2003).
|
4 |
T. Nakazono and A. Matsumoto, "Mechanical properties and thermal aging behavior of styrene-butadiene rubbers vulcanized using liquid diene polymers as the plasticizer", J. Appl. Polym. Sci., 118, 2314 (2010).
|
5 |
M. Gruendken, "Liquid rubber for safer and faster tires" In Proceedings of the Tire Technology Expo 2018, Hannover, Germany, 14-16 February (2017).
|
6 |
K. Ikeda, "Bio liquid polymer for winter tires" In Proceedings of the Tire Technology Expo 2018, Hanover, Germany, 20-22 February (2018).
|
7 |
V. P. Sierra, J. Mann, C. Van De Pol, N Kendziorra, K. Herzog, C. Recker, and N. Muller, "Rubber blend with improved rolling resistance behavior", U.S. Patent 9080042 (2015).
|
8 |
J. K. Hirata, "Effects of crosslinkable plasticizers", RFP Rubber Fibers Plast. Int., 6, 212 (2011).
|
9 |
T. E. Hogan, W. L. Hergenrother, and M. Tallman, "Amine-containing alkoxysilyl-functionalized polymers", U.S. Patent 8148486 (2012).
|
10 |
K. Taniguchi, K. Tsukimawashi, N. Kobayashi, and T. Tadaki, "Conjugated-diolefin (co) polymer rubber and process for producing the same", U.S. Patent 7528199 (2009).
|
11 |
R. Herpich, T. Fruh, L. Heiliger, and K. Schilling, "Silica gel-containing rubber compounds with organosilicon compounds as compounding agent", U.S. Patent 6593418 (2003).
|
12 |
S. Satoyuki and M. Tochiro, U.S. Patent 2005350603 (2005).
|
13 |
E. Chae and S. S. Choi, "Building Calibration Curve for Py-GC/MS Analysis of SBR/BR Blend Rubber Compounds", Elastomers and Composites, 55, 281 (2020).
|
14 |
S. Han, W. S. Kim, D. Y. Mun, B. Ahn, and W. Kim, "Effect of coupling agents on the vulcanizate structure of carbon black filled natural rubber", Compos. Interfaces, 27, 355 (2020).
|
15 |
A. Ansarifar, L. Wang, R. Ellis, S. Kirtley, and N. Riyazuddin, "Enhancing the mechanical properties of styrene-butadiene rubber by optimizing the chemical bonding between silanized silica nanofiller and the rubber", J. Appl. Polym. Sci., 105, 2 (2007).
|
16 |
P. J. Flory, "Principles of polymer chemistry", p. 576, Cornell University Press, New York, NY, USA, (1953).
|
17 |
J. Y. Lee, "The effect of accelerator contents on the vulcanizates structures of SSBR silica vulcanizates" Compos. Interfaces, 24, 563 (2016).
|
18 |
P. J. Flory, "Statistical mechanics of swelling of network structures", J. Chem. Phys., 18, 108 (1950).
|
19 |
A. Ansarifar, R. Nijhawan, T. Nanapoolsin, and M. Song, "Reinforcing effect of silica and silane fillers on the properties of some natural rubber vulcanizates", Rubber Chem. Technol., 76, 5 (2003).
|
20 |
C. R. Parks and R. J. Brown, "Crosslink density of elastomers. a new gas chromatographic method", Rubber Chem. Technol., 49, 233 (1976).
|
21 |
B. Ahn, N. Park, D. Kim, and W. Kim, "Influence of end-functionalized solution styrene-butadiene rubber on silica-filled vulcanizates with various silica-silane systems", Rubber Chem. Technol., 92, 364 (2019).
|
22 |
S. S. Choi, "Improvement of properties of silica-filled styrene-butadiene rubber (SBR) compounds using acrylonitrile-styrene-butadiene rubber (NSBR)", Polym. Adv. Technol., 14, 557 (2000).
DOI
|
23 |
E. Padenko, P. Berki, B. Wetzel, and J. Karger-Kocsis, "Mechanical and abrasion wear properties of hydrogenated nitrile butadiene rubber of identical hardness filled with carbon black and silica", J. Reinf. Plast. Comp., 35, 1 (2016).
|
24 |
P. Weng, Z. Tang, and B. Guo, "Solving 'magic triangle' of tread rubber composites with phosphonium-modified petroleum resin", Polym., 190, 122244 (2020).
|
25 |
N. Rattanasom, T. Saowapark, and C. Deeprasertkul, "Reinforcement of natural rubber with silica/carbon black hybrid filler", Polym. Test, 26, 369 (2007).
|
26 |
W. Niedermeier, "The significant expansion of the 'magic triangle' for truck tires", RubberChem'99, 8-1 (1999).
|
27 |
S. Maghami, "Silica-filled tire tread compounds: an investigation into the viscoelastic properties of the rubber compounds and their relation to tire performance", Ph. D. Thesis, University of Twente, Enschede, the Netherlands (2016).
|
28 |
P. Zhang, M. J. Wang, Y. Kutsovsky, S. Laube, and K Mahmud, "A New Generation Carbon-Silica Dual Phase Filler (CSDPF) Part II. Application to Passenger Tread Compounds for Improved Tradeoff among Rolling Resistance, Wet Traction and Treadwear Performance", In a meeting of the Rubber Division, American Chemical Society Cleveland, Ohio (2001).
|
29 |
W. Kim, E. Yu, G. Ryu, D. Kim, C. Ryu, Y. Seo, and W. Kim, "Silica dispersion and properties of silica filled ESBR/BR/NR ternary blend composites by applying wet masterbatch technology", Polym. Test, 84, 106350 (2020).
|
30 |
D. Kim, B. Ahn, K. Kim, J. Lee, I. J. Kim, and W. Kim, "Effects of Molecular Weight of Functionalized Liquid Butadiene Rubber as a Processing Aid on the Properties of SSBR/Silica Compounds", Polym., 13, 850 (2021).
|