Characteristics of styrene-butadiene rubber/silica/nanoprene compounds for application in tire tread

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Characteristics of styrene-butadiene rubber/silica/nanoprene compounds for application in tire tread

Seo, Byeongho / Kang, Jonghyub / Jang, Sukhee / Kang, Yonggu / Kim, Wonho

Nanoprene is made from chemically cross-linked rubber particles, and has many hydroxyl groups on the surface of the particles. It is speculated that the Nanoprene could reduce the silica-silica network formation by introducing hydrogen bonding between the silanol group of silica and the hydroxyl group of Nanoprene. In this study, the styrene-butadiene rubber (SBR)/silica compounds with two types of the Nanoprene (BM75OH, BM15OH) were evaluated and it could be well explained by the concept of the volume fraction of filler or the volume fraction of rubber. If the Nanoprene applied to the compound is considered as a kind of filler, the minimum torque values and bound rubber contents of the un-vulcanized compounds, the swelling ratio and the stress-strain relationship of the vulcanized compounds could be well explained by the volume fraction of filler (Φ_F). If Nanoprene is considered as a kind of rubber such as SBR, the properties such as peak tan δ, Payne effect, tan δ at 0 °C and 60 °C, and abrasion resistance could be well explained by the volume fraction of rubber (Φ'_R). However, the improvement of silica dispersion by addition of the Nanoprene particles in the compounds was not significant. The application of BM75OH as a polymer to the tread compound will be suitable for winter tires. In addition, the compound with BM15OH as an additive will be suitable as a tread compound for summer tires.