최소 단어 이상 선택하여야 합니다.
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다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기고무기술 = Rubber technology, v.23 no.1, 2022년, pp.1 - 13
김동혁 (한국타이어) , 김원호 (부산대학교 화학공학과) , 백현종 (부산대학교 고분자공학과) , 전흥배 (광운대학교 화학과)
초록이 없습니다.
International Council on Clean Transportation, Global Comparison of Passenger Car and Light- commercial Vehicle Fuel Economy/GHG Emissions Standards (February 2014)
Eur-Lex. https://eurlex.europa.eu/LexUriServ/LexUriServ.do?riOJ:L:2005:323:0051:0054:EN:PDF.
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).
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).
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).
Gruendken, M. "Liquid Rubber for Safer and Faster Tires" In Proceedings of the Tire Technology Expo 2018, Hannover, Germany, 14-16 February 2017.
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
Kuraray liquid rubber, last access date: February 20th, 2019, https://www.elastomer.kuraray.com/downloads/product-brochures/.
Luxton, A. R. "The preparation, modification and applications of nonfunctional liquid polybutadienes"Rubber Chem. Technol., 54, 3, 596-626 (1981).
Yoo, T., Henning, S. K. "Synthesis and characterization of farnesene-based polymers." Rubber Chem. Technol. 90, 2, 308 (2017).
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).
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).
Roh- und Hilfsstoffe in der Gummiindustrie, VEB Deutscher Verlag fur Grundstoffindustrie, 2.2, 1968, p. 22. Leipzig, Germany
Salort, F.; Steven, K. Henning. Silane-terminated liquid poly (butadienes) in tread formulations: A mechanistic study. Rubber Chem. Technol., 94, 1, 24-47 (2020).
Ikeda, K. "Bio Liquid Polymer for Winter Tires" In Proceedings of the Tire Technology Expo 2018, Hanover, Germany, 20-22 February (2018).
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).
Hirata, J.K. "Effects of crosslinkable plasticizers" RFP Rubber Fibers Plast. Int., 6, 212-215 (2011).
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).
Hogan, T.E., Hergenrother, W.L., Tallman, M. "Amine-Containing Alkoxysilyl-Functionalized Polymers" U.S. Patent 8,148,486. (2012).
Hsu, W.L., Halasa, A.F. "Rubbers Having Improved Interaction with Silica" U.S. Patent 5,652,310. (1997).
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).
Cray Valley, Technical Data Sheet, Ricon 603, June 2017, http://www.crayvalley.com/docs/tds/ricon-603-.pdf?sfvrsn2
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
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).
Takuya, H., Tochiro, M., Sumitomo Rubber Ind. J. Patent 2,005,146,115 (2003).
Satoyuki, S., Chikashi, Y., Yokohama Rubber Co. Ltd., JP 2,005,350,603 (2005).
Beierlein, C. "Process for polymerization of a diene." U.S. Patent Application No. 13/903,546 (2013).
Haberkorn, N. "Improving the rolling resistance of diene rubber tires by means of silane-modified polybutadienes." U.S. Patent No. 10,487,195. (2019).
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).
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).
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).
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).
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