Influence of functionalized S–SBR on silica–filled rubber compound properties

Chigusa Yamada, Atsushi Yasumoto, Tadashi Matsushita, Anke Blume
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引用次数: 3

Abstract

Styrene–butadiene–Rubber, SBR, is most often used in tread compounds in order to improve the Rolling Resistance (RR). The functionalized SBRs are used to increase the polymer–filler interaction in the compound to improve RR. In this study, the effect of different types of functional groups in SBR was investigated. Several types of functionalized S–SBR’s were synthesized by anionic polymerization: (i) SBR with an amine group at one end of the polymer chain, (ii) SBR with an alkoxy silane group at one end (iii) SBR with an amine group at one end and an alkoxy silane group at the other end of the polymer chain. A model reaction of silanization was conducted in a solvent to estimate how the amine functional group affects the silanization. Silica filled compounds were prepared with these SBR types. Payne effect and bound rubber measurement were done. The model silanization reaction of TESPT (Bis(triethoxysilylpropyl)tetrasulfide) with silica in the presence of amine shows that a higher amount of ethanol (EtOH) is released from TESPT compared to the amine free system. This result indicates that the silanization reaction can be accelerated by the presence of an amine functional group at the SBR polymer chain used in silica–filled compounds. The amine functionalized SBR and the alkoxy silane functionalized SBR show less Payne effect of the compounds which indicates that both functional groups can decrease the filler–filler interaction. More chemical bound rubber was obtained in branched SBRs compared to the corresponding linear SBRs. A branched polymer chain has a higher molecular weight compared to the linear type. Therefore, when one branched polymer chain reacts with silica or creates a silica–silane–polymer bond, more bound rubber can be obtained for the branched than for the linear type. The compound of the SBR with the alkoxy–silane functional group shows lower tan δ compared to the non–functionalized SBR and the amine functionalized SBR compounds. The influence of the type of functionalization of the SBR on tan δ at 70 °C was more significant in branched SBRs than in linear SBRs, due to the before–mentioned effect of the functional group on silanization and bound rubber.

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功能化S-SBR对硅橡胶复合材料性能的影响
丁苯橡胶,SBR,是最常用于胎面化合物,以提高滚动阻力(RR)。功能化sbr用于增加聚合物与填料的相互作用,以提高RR。本研究探讨了不同类型官能团在SBR中的作用。采用阴离子聚合的方法合成了几种功能化的S-SBR:(i)聚合物链一端为胺基的SBR, (ii)一端为烷氧基硅烷基的SBR, (iii)一端为胺基,另一端为烷氧基硅烷基的SBR。在溶剂中进行了硅烷化模型反应,以估计胺官能团对硅烷化反应的影响。用这些SBR类型制备了二氧化硅填充化合物。进行了佩恩效应和粘结胶的测定。在胺的存在下,TESPT(双(三乙氧基硅丙基)四硫醚)与二氧化硅的模型硅化反应表明,与无胺体系相比,TESPT体系释放出更多的乙醇(EtOH)。这一结果表明,在硅填充化合物的SBR聚合物链上存在胺官能团可以加速硅烷化反应。胺官能团化的SBR和烷氧基硅烷官能团化的SBR表现出较小的Payne效应,表明这两种官能团都能降低填料-填料相互作用。与相应的线性sbr相比,支链sbr得到了更多的化学结合橡胶。支化聚合物链比线性聚合物链具有更高的分子量。因此,当一个支链聚合物链与二氧化硅反应或形成二氧化硅-硅烷-聚合物键时,支链聚合物比线性聚合物能得到更多的结合橡胶。含烷氧硅烷官能团的SBR化合物比未官能团化的SBR和胺官能团化的SBR化合物表现出更低的tan δ。在70°C时,由于官能团对硅烷化和结合橡胶的影响,支链SBR的官能团类型对tan δ的影响比线性SBR更显著。
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