|本期目录/Table of Contents|

[1]王丽丽.绿色轮胎用官能化溶聚丁苯橡胶研究进展[J].合成橡胶工业,2023,4:346-351.
 WANG Li-li.Research progress in functionalized solution polymerized styrene-butadiene rubber for green tire[J].China synthetic rubber industy,2023,4:346-351.
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绿色轮胎用官能化溶聚丁苯橡胶研究进展(PDF)

《合成橡胶工业》[ISSN:1000-1255/CN:62-1036/TQ]

期数:
2023年4期
页码:
346-351
栏目:
出版日期:
2023-07-01

文章信息/Info

Title:
Research progress in functionalized solution polymerized styrene-butadiene rubber for green tire
文章编号:
1000-1255(2023)04-0346-06
作者:
王丽丽
中国石化北京化工研究院 燕山分院/橡塑新型材料合成国家工程研究中心,北京 102500
Author(s):
WANG Li-li
National Engineering Research Center for Synthesis of Novel Rubber and Plastic Materials/Yanshan Branch of Beijing Research Institute of Chemical Industry, SINOPEC, Beijing 102500, China
关键词:
溶聚丁苯橡胶绿色轮胎官能化滞后损失填料分散性综述
Keywords:
solution polymerized styrene-buta-diene rubber green tire functionalization lag loss filler dispersion review
分类号:
TQ 333.1
DOI:
DOI:10.19908/j.cnki.ISSN1000-1255.2023.04.0346
文献标识码:
A
摘要:
综述了近年来国内外合成橡胶企业及科研院所在溶聚丁苯橡胶官能化领域的研究进展,并提出了未来官能化溶聚丁苯橡胶的研究方向。
Abstract:
The research progress in functionalization of solution polymerized styrene-butadiene rubber in domestic and foreign synthetic rubber enterprises and scientific research institutes in recent years was summarized with 66 references, and the future research direction of functionalized solution polymerized styrene-butadiene was proposed.

参考文献/References

[1] 曲亮靓, 解希铭,于国柱, 等. 橡胶-填料相互作用对丁苯橡胶/白炭黑复合材料性能的影响[J]. 中国科学, 2014, 4(11): 1723-1732.[2] Mcdalia A I. Filler aggregates and their effect on reinforcement[J]. Rubber Chemistry and Technology, 1974, 47(2): 411-433.[3] Wagner M P. Reinforcing silicas and silicates[J]. Rubber Chemistry and Technology, 1976, 49(3): 703-774.[4] 王宝金, 周宏斌, 丁元强, 等. 炭黑混炼胶和白炭黑混炼胶的结合橡胶及Payne效应研究[J]. 橡胶科技, 2017, 15(7): 17-23.[5] Warasitthinon N, Genix A C, Sztucki M, et al. The Payne effect: Primarily polymer-related or filler-related phenomenon[J]. Chemistry and Technology, 2019, 92(4): 599-611.[6] Wu J, Chen L, Su B L, et al. Evolution of Payne effect of silica-filled natural rubber in curing process[J]. Journal of Rubber Research, 2019, 22(3): 127-132.[7] Li Yan, Han Bingyong, Liu Li, et al. Surface modification of silica by two-step method and properties of solution styrene butadiene rubber (SSBR) nanocomposites filled with modified silica[J]. Composites Science and Technology, 2013, 88: 69-75.[8] Li Yan, Han Bingyong, Wen Shipeng, et al. Effect of the temperature on surface modification of silica and properties of modified silica filled rubber composites[J]. Composites (Part A), 2014, 62: 52-59.[9] 郑涛, 邵红琪, 吴晓辉, 等. 硅烷偶联剂原位改性白炭黑/溶聚丁苯橡胶复合材料的流变性能和力学性能研究[J]. 橡胶工业, 2022, 69(9): 652-658.[10] Rombaldi S H, Pierozan N J, Brandslisa R N. Influence on mechanical and rheometric properties through different methods of chemical modification of silica applied to natural compounds[J]. Journal of Elastomers and Plastics, 2021, 2: 17-23.[11] Sang Y L, Jung S K, Seung H L, et al, The investigation of the silica-reinforced rubber polymers with the methoxy type silane coupling agents[J]. Polymers, 2020, 12: 3058-3062.[12] Crowe J A, Genzer J. Creating responsive surfaces with tailored wettability switching kinetics and reconstruction reversibility[J]. Journal of the American Chemical Society, 2005, 127(50): 17610-17611.[13] Hogan T E, Randa A, Hergenrother W L, et al. The role of functional polymers in improving tire performance[J] Rubber World, 2010, 242: 38-42.[14] Coutelier O, Blidi I, Destarac M. Xanthate-derived mercaptophosphonates for thiolene modification of styrene-butadiene rubber[J]. European Polymer Journal, 2021, 151: 110419.[15] 赵文明, 刘恒, 胡雁鸣, 等. 含邻苯二酚基团官能化溶液聚合丁苯橡胶的合成与表征[J]. 合成橡胶工业, 2021, 44(2): 143-149.[16] 张兴英, 赵素合, 金关泰. 星形聚合物的发展近况[J]. 合成橡胶工业, 1999, 22(2): 116-119.[17] Lawson D F. Aromatic nitrile-terminated diene polymer rubbers for tire treads with reduced rolling resistance: US, 5153271[P]. 1992-11-11.[18] Tsutsumi F, Sakakibara M, Oshima N. Structure and dynamic properties of solution SBR coupled with tin compound[J]. Rubber Chemistry and Technology, 1990, 63(1): 8-10.[19] 刘晓, 赵素合, 张兴英, 等. 端基官能化溶聚丁苯橡胶及其复合材料的制备、结构与性能研究[J]. 合成橡胶工业, 2009, 56(6): 325-332.[20] 上坂宪市, 国泽铁也. 轮胎用橡胶组合物和充气轮胎:中国, 102212218 A [P]. 2011-10-12.[21] 张兴英, 金关泰, 赵素合. 多官能团有机碱金属引发剂及合成方法:中国, 1148053 A [P]. 1997-04-23.[22] 赵素合, 张兴英, 金关泰. 锡偶联型溶聚丁苯胶性能评价[J]. 弹性体, 1995, 5(3): 25-29.[23] 姚明, 张兴英. 一种阴离子聚合用多官团有机碱金属引发剂的制备方法: 中国, 101045756 A [P]. 2007-10-03.[24] 赵素合, 王真. 锡偶联型SSBR的动态行为[J]. 合成橡胶工业, 2000, 23(1): 20-23.[25] 赵素合, 张建明, 张兴英, 等. 星形SSBR的偶联程度与性能的关系[J]. 合成橡胶工业, 2002, 25(4): 223-226.[26] 邵卫, 燕鹏华, 应继成, 等. 苯乙烯中的TBC对SBR聚合的影响[J]. 弹性体, 2015, 25(1): 63-65.[27] 徐炜, 梁爱民 ,吴一弦, 等. 高乙烯基高相对分子质量环保型充油星形溶聚丁苯橡胶的合成[J]. 合成橡胶工业, 2014, 37(5): 352-356.[28] 徐炜,梁爱民 ,吴一弦, 等. 用混合偶联剂合成三峰分布高乙烯基溶聚丁苯橡胶[J]. 合成橡胶工业, 2014, 37(4): 258-262.[29] 刘晓娇, 刘吉文, 赵树高. 部分端基硅偶联溶聚丁苯橡胶并用胶的性能[J]. 合成橡胶工业, 2015, 38(2): 145-149.[30] 王晓营, 刘吉文, 赵树高. 白炭黑填充不同牌号溶聚丁苯橡胶的性能对比[J]. 合成橡胶工业, 2013, 36(6): 480-484.[31] Lee K, Lee B. Solution polymerization for manufacture of styrene-butadiane rubber or butadiene rubber: JP, 248014[P]. 2000-09-12.[32] 王作龄. 分子末端改性丁苯橡胶[J]. 世界橡胶工业, 1999, 26(2): 53-59.[33] Haruo Y, Keiichi T, Norifusa I. Conjugated diene polymer and process for production: US, 7915349 B 2[P]. 2011-02-22.[34] Chaboche P, Favrot J M. Elastomer mixture mainly comprising a diene elastomer coupled by an amino-alkoxysilane group, rubber composition including the same and methods for obtai-ning same: US, 2011178233 A 1[P] .2011-07-21.[35] 曾根卓男, 田中了司. 橡胶组合物和充气轮胎: 中国, 102348748 B [P]. 2013-09-04.[36] Takuo S, Takaomi M. Process for producing conjugated diolefin (co) polymer rubber, conjugated di-olefin (co) polymer rubber, rubber composition,and tire: US, 7893164 B 2[P]. 2011-02-22.[37] Pogodaev A K, Karmanova O V, Firsova A V, et al. Synthesis and properties of functionalized styrene-butadiene rubbers[J]. Journal of Chemical Technology and Metallurgy, 2019, 54(6): 1134-1140.[38] Hayano S, Sugimura T. Method for producing radial conjugated diene polymer: JP, 2010131646 A 1[P]. 2010-11-18.[39] Takeshi K, Takeshi S. Conjugated diene rubber, rubber composition, crosslinked rubber, tire, and process for production of conjugated diene rubber: JP, 2011105362 A 1[P]. 2011-09-01.[40] Steinhauser N, Gross T. Functionalized diene rubbers: US, 201128001 A 1[P]. 2011-11-17.[41] 韩明哲, 徐郑帅, 曹兰. 巯基官能化溶聚丁苯橡胶的制备及性能[J]. 合成橡胶工业, 2021, 44(6): 501-511.[42] Marechal J M, de Stephanie L. Functionalized diene elastomer and rubber composition: JP, 2011042507 A 1[P]. 2011-04-14.[43] Ryouji T, Masahiro S. Method for producing modified conjugated diene rubber, modified conjugated diene rubber, and rubber composition: JP, 2011049180 A 1[P]. 2011-04-28.[44] 佟园园, 徐利民, 白玉, 等. 用γ-氯丙基三甲氧基硅烷端基改性星形溶聚丁苯橡胶[J]. 合成橡胶工业, 2011, 34(2): 111-116.[45] 王雷, 张兴英, 赵素合. 分子链末端改性溶聚丁苯橡胶的结构与性能研究[J]. 轮胎工业, 2011, 31(3): 152-158.[46] Liu Xiao, Zhao Suhe, Zhang Xingying, et al. Preparation, structure, and properties of solution-polymerized styrene-butadiene rubber with functionalized end-groups and its silica-filled composites[J]. Polymer, 2014, 55(8): 1964-1976.[47] Hassanabadi M, Najafi M, Motlagh G H, et al. 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[J]. Polymer Testing, 2020, 85: 106431-106444.[48] Yuasa T, Tominaga T, Sone T. Analysis of filler aggregation in compouns using small-angle X-ray scattering: Effect of functional group introduced into polymer-ends of solution polyme-rized SBR[J]. International Journal of Polymer Science, 2014, 41(2): 7-14.[49] Bohm G A, Nguyen M N, Flocculation of carbon black in filled rubber compounds (1): Flocculation occurring in unvulcanized compounds during annealing at elevated temperatures[J]. Journal of Applied Polymer Science, 1995, 55: 1041-1050.[50] Bohm G A, Tomaszewski W, Cole W, et al, Furthering the understanding of the non linear response of filler reinforced elastomers[J]. Polymer, 2010, 51: 2057-2068.[51] Kim K, Seo B, Lee J Y B, et al. Styrene-butadiene-glycidyl methacrylate terpolymersilica composites dispersion of silica particles and dynamic mechanical[J]. Composite Interfaces, 2015, 22: 137-149.[52] Kim K, Lee J Y, Lim S H et al, Effect of the amounts of glycidyl methacrylate on the mechanical and dynamic properties of styrene-butadiene-glycidyl methacrylate terpolymer/silica[J]. Composite Interfaces, 2016, 23: 607-621.[53] Qu Liangliang , Wang Lijing , Xie Ximing. Contribution of si-lica-rubber interactions on the viscoelastic behaviors of modified solution polymerized styrene butadiene rubbers(M-S-SBRs)filled with silica[J]. The Royal Society of Chemistry, 2014, 4: 64354-64363.[54] 杨金娟, 栗晓杰, 林青峰, 等. 溶聚丁苯橡胶接枝MAH的性能研究[J]. 石油化工高等学校学报, 2014, 27(2): 10-14.[55] 罗开强, 罗艳龙, 刘昊北, 等. 链中改性溶聚丁苯橡胶对白炭黑分散性影响的实验研究和分子模拟[J]. 轮胎工业, 2017, 37(7): 404-409.[56] Gao Wei, Lu Jianmin, Song Wenna, et al. Interfacial interaction modes construction of various functional SSBR-silica towards high filler dispersion and excellent composites performances[J]. RSC Advances, 2019, 9(33): 18888-18897.[57] Weng Peijin, Tang Zhenghai, Huang Jing, et al. Promoted dispersion of silica and interfacial strength in rubber/silica composites by grafting with oniums[J]. Journal of Applied Polymer Science, 2019, 136(46): 48243-48256.[58] 田珍珍, 龚光碧, 董静, 等. 白炭黑接枝环氧化溶聚丁苯橡胶的制备及表征[J]. 合成橡胶工业, 2017, 40(2): 139-142.[59] 李福崇, 王琳蕾, 李旭, 等. 链中环氧化溶聚丁苯橡胶的制备及性能[J]. 合成橡胶工业, 2018, 41(5): 331-335.[60] 龚湛林, 陈福林, 肖建平, 等. 工艺和配方对熔融法制备丁苯橡胶接枝马来酸酐的影响[J]. 弹性体, 2013, 23(6): 28-31.[61] 向坤, 罗筑, 夏忠林, 等. GMA熔融接枝丁苯橡胶的研究[J]. 弹性体, 2014, 24(5): 24-27.[62] 赵红磊. 多单体熔融接枝丁苯橡胶性能的研究[J]. 广州化工, 2018, 46(11): 38-40.[63] Wang Lili, Lu Yonglai, Xie Ximing, et al. In situ grafting onto solution polymerized styrene butadiene rubbers(SSBR) filled with silica via solid state method[J]. Journal of Applied Polymer Science, 2018, 135(34): 46653-46663.[64] 王丽丽, 解希铭, 刘苹. β-巯基丙酸固相原位加工改性溶聚丁苯橡胶及其白炭黑复合材料的制备工艺[J]. 合成橡胶工业, 2021, 44(1): 2-6.

备注/Memo

备注/Memo:
更新日期/Last Update: 1900-01-01