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http://dx.doi.org/10.7473/EC.2013.48.2.103

Study on Mixing Condition of the Rubber Composite Containing Functionalized S-SBR, Silica and Silane : II. Effect of Mixing Temperature and Time  

Jang, Suk-Hee (Research & Development Division, NEXEN TIRE Co.)
Kim, Wook-Soo (Research & Development Division, NEXEN TIRE Co.)
Kang, Yong-Gu (Research & Development Division, NEXEN TIRE Co.)
Han, Min-Hyun (Research & Development Division, NEXEN TIRE Co.)
Chang, Sang-Mok (Department of Chemical Engineering, Dong-A Univ.)
Publication Information
Elastomers and Composites / v.48, no.2, 2013 , pp. 103-113 More about this Journal
Abstract
The properties of the rubber composites containing a silane and silica were evaluated by changing the mixing time and temperature, in order to find the optimum mixing conditions. Characteristics of the compounds were evaluated after mixing at $120^{\circ}C$, $140^{\circ}C$, and $160^{\circ}C$ with various mixing time. With increasing of mixing time, mooney viscosity decreased while the bound rubber contents of the compounds increased. Viscosity rise by increased mixing time was bigger at low temperature and the higher the mixing temperature the faster in the formation of bound rubber. With lower mixing temperature of $120^{\circ}C$, cross-linking rate was almost constant. Dynamic viscoelastic properties and dispersity of the compound showed that dispersion of ingredients and reaction was not sufficient with the mixing time of less than 10min. On the contrary, with high temperature, it was obvious that good dynamic and physical properties could be obtained due to sufficient coupling reaction, however it was thought this high temperature is not optimum because of sensitive cross-linking rate and physical properties and excessive formation of bound rubber. Consequently, it was confirmed that the mixing condition of 10min at $140^{\circ}C$ was optimum for the silane coupling reaction and dispersion of functionalized S-SBR containing silica and silane.
Keywords
solution SBR; silanization; mixing temperature; mixing time; dynamic viscoelastic properties;
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