저분자량 액상 부타디엔 고무 연구 현황 및 타이어 트레드 컴파운드 적용 전망
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Kim, Dong-Hyeok
(한국타이어)
Kim, Won-Ho (부산대학교 화학공학과) Baek, Hyeon-Jong (부산대학교 고분자공학과) Jeon, Heung-Bae (광운대학교 화학과) |
| 1 | International Council on Clean Transportation, Global Comparison of Passenger Car and Light- commercial Vehicle Fuel Economy/GHG Emissions Standards (February 2014) |
| 2 | Eur-Lex. https://eurlex.europa.eu/LexUriServ/LexUriServ.do?ri=OJ:L:2005:323:0051:0054:EN:PDF. |
| 3 | Nakazono, T. Matsumoto, A. "Mechanical properties and thermal aging behavior of styrene-butadiene rubbers vulcanized using liquid diene polymers as the plasticizer"J. Appl. Polym. Sci., 118, 2314-2320 (2010). DOI |
| 4 | Yoo, T., Henning, S. K. "Synthesis and characterization of farnesene-based polymers." Rubber Chem. Technol. 90, 2, 308 (2017). DOI |
| 5 | Roh- und Hilfsstoffe in der Gummiindustrie, VEB Deutscher Verlag fur Grundstoffindustrie, 2.2, 1968, p. 22. Leipzig, Germany |
| 6 | Sierra, V.P., Wagemann, J., Van De Pol, C., Kendziorra, N., Herzog, K., Recker, C., Mueller, N. "Rubber Blend with Improved Rolling Resistance Behavior" U.S. Patent 9,080,042 (2015). |
| 7 | Hsu, W.L., Halasa, A.F. "Rubbers Having Improved Interaction with Silica" U.S. Patent 5,652,310. (1997). |
| 8 | Taniguchi, K., Tsukimawashi, K., Kobayashi, N., Tadaki, T. "Conjugated-diolefin (co) polymer rubber and process for producing the same" U.S. Patent 7,528,199. (2009). |
| 9 | Kuraray liquid rubber, last access date: February 20th, 2019, https://www.elastomer.kuraray.com/downloads/product-brochures/. |
| 10 | Takuya, H., Tochiro, M., Sumitomo Rubber Ind. J. Patent 2,005,146,115 (2003). |
| 11 | Beierlein, C. "Process for polymerization of a diene." U.S. Patent Application No. 13/903,546 (2013). |
| 12 | Haberkorn, N. "Improving the rolling resistance of diene rubber tires by means of silane-modified polybutadienes." U.S. Patent No. 10,487,195. (2019). |
| 13 | Gruendken, M., Velencoso, M. M., Koda, D., & Blume, A. "Silane-modified low molecular weight 'liquid'polymers in sulfur cured mixtures of styrene-butadiene copolymers and silica" Polym. Test., 93, 106997 (2021). DOI |
| 14 | Kim, D., Ahn, B., Kim, K., Lee, J., Kim, I. J., & Kim, W. "Effects of Molecular Weight of Functionalized Liquid Butadiene Rubber as a Processing Aid on the Properties of SSBR/Silica Compounds" Polymers, 13, 6, 850 (2021). DOI |
| 15 | Gruendken, M., Velencoso, M. M., Hirata, K., & Blume, A. "Structure-property relationship of low molecular weight 'liquid' polymers in blends of sulfur cured SSBR-rich compounds."Polym. Test., 87 (2020): 106558 |
| 16 | Ezzoddin, S., Abbasian, A., Aman Alikhani, M., Ganjali, S. T. "The influence of non-carcinogenic petroleum-based process oils on tire compounds performance" Iran. Polym. J., 22, 9, 697-707 (2013). DOI |
| 17 | Hirata, K., Moriguchi, N., Sasaki, H., Koda, D., Kanbara, H., Kuwahara, S., Chapman B., Tran, H., Iacoponi, J., Pillari, L., McPhee, D. Rubber World 256, 50 (2017). |
| 18 | Kataoka, T., Zetterlund, P. B., Yamada, B. "Effects of storage and service on tire performance: Oil component content and swelling behavior" Rubber Chem. Technol., 76, 507-516 (2003). DOI |
| 19 | Gruendken, M. "Liquid Rubber for Safer and Faster Tires" In Proceedings of the Tire Technology Expo 2018, Hannover, Germany, 14-16 February 2017. |
| 20 | Luxton, A. R. "The preparation, modification and applications of nonfunctional liquid polybutadienes"Rubber Chem. Technol., 54, 3, 596-626 (1981). DOI |
| 21 | Ozawa, Y., Takata, T. "Synthesis and property of end-functionalized poly (cis-1, 4-butadiene) and its application to rubber compound" J. Appl. Polym. Sci. 136, 47985 (2019). DOI |
| 22 | Salort, F.; Steven, K. Henning. Silane-terminated liquid poly (butadienes) in tread formulations: A mechanistic study. Rubber Chem. Technol., 94, 1, 24-47 (2020). DOI |
| 23 | Ikeda, K. "Bio Liquid Polymer for Winter Tires" In Proceedings of the Tire Technology Expo 2018, Hanover, Germany, 20-22 February (2018). |
| 24 | Hirata, J.K. "Effects of crosslinkable plasticizers" RFP Rubber Fibers Plast. Int., 6, 212-215 (2011). |
| 25 | Choi, S. "Improvement of the filler dispersion in silica-filled SBR compounds using low molecular weight polybutadiene treated with maleic anhydride" Elastomers Compos., 41, 10-18 (2006). |
| 26 | Hogan, T.E., Hergenrother, W.L., Tallman, M. "Amine-Containing Alkoxysilyl-Functionalized Polymers" U.S. Patent 8,148,486. (2012). |
| 27 | Cray Valley, Technical Data Sheet, Ricon 603, June 2017, http://www.crayvalley.com/docs/tds/ricon-603-.pdf?sfvrsn=2 |
| 28 | Satoyuki, S., Chikashi, Y., Yokohama Rubber Co. Ltd., JP 2,005,350,603 (2005). |
| 29 | Evonik. ''Less Fuel and Lower CO2 Emissions with POLYVEST ST Tires'' 13 February 2017, https://coatings.evonik.com/en/less-fuel-and-lower-co2-emissions-with-polyvest-st-tires-100233.html |
| 30 | Herpich, R., Fruh, T., Heiliger, L., Schilling, K. "Silica gel-containing rubber compounds with organosilicon compounds as compounding agent" U.S. Patent Application No. 90/951,034, (2002). |
| 31 | Kim, D., Ahn, B., Ryu, G., Hwang, K., Song, S., & Kim, W. "Effect of Vinyl Group Content of the Functionalized Liquid Butadiene Rubber as a Processing Aid on the Properties of Silica Filled Rubber Compounds." Elastomers and Compos., 56, 3, 152-163 (2021). |
| 32 | Kim, D., Yeom, G., Joo, H., Ahn, B., Paik, H. J., Jeon, H., & Kim, W. "Effect of the Functional Group Position in Functionalized Liquid Butadiene Rubbers Used as Processing Aids on the Properties of Silica-Filled Rubber Compounds." Polymers, 13,16, 2698 (2021). DOI |
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