Rheological Study on the Cure Kinetics of Two-component Addition Cured Silicone Rubber

The cure kinetics for two-component silicone rubber formed by addition reaction was studied by the rheological method. The influence of reaction temperature (7) on the cure kinetics was explored in detail. It was observed that the data of gel time (tgel, i.e. the time when the reaction reaches the g...

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Bibliographic Details
Published in:Chinese journal of polymer science 2016-10, Vol.34 (10), p.1290-1300
Main Authors: Guan, Dong-bo, Cai, Zhong-yi, Liu, Xin-chun, Lou, Bo, Dou, Yan-li, Xu, Dong-hua, Yao, Wei-guo
Format: Article
Language:English
Subjects:
Characterization and Evaluation of Materials
Chemical reactions
Chemistry
Chemistry and Materials Science
Condensed Matter Physics
Confinement
Cures
Diffusion
Diffusion rate
Industrial Chemistry/Chemical Engineering
Kinetics
Networks
Polymer Sciences
Rate constants
Reaction kinetics
Reaction time
Rheological properties
Rheology
Rubber
Silicone rubber
Silicones
加固化
加成反应
双组分
反应时间
固化动力学模型
时间约束网络
流变学
硅橡胶
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Summary:The cure kinetics for two-component silicone rubber formed by addition reaction was studied by the rheological method. The influence of reaction temperature (7) on the cure kinetics was explored in detail. It was observed that the data of gel time (tgel, i.e. the time when the reaction reaches the gel point) or a specific reaction time (tnc) (defined as the reaction time before which time the influence of confinement of network on the diffusion of reaction components can be neglected) versus T obey certain functional relationship, which was well explained by the cure kinetics model of thermoset network. The cure kinetics for the two-component silicone rubber can be well fitted by the Kamal-Sourour(autocatalyst) reaction model rather than Kissinger model. When the reaction time was before or equal to tnc, the reaction order obtained by the Kamal-Sourour reaction model was 2, which was consistent with the reaction order inferred from the two components chemical reaction when the diffusion of reaction components was not influenced by the formed cross-linked polymer network. When the reaction time was larger than tnc, such as to the end of reaction (re), the influence of confinement of network on the diffusion of reaction components cannot be neglected, and the reaction order obtained by the Kamal-Sourour reaction model was larger than 2. It was concluded that the confinement effect of network had a greater influence on the cure kinetics of the silicone rubber. The reaction rate constants (kτ) under different temperatures were also determined by Kamal-Sourour reaction model. The activation energy (E) for the two-component silicone rubber was also calculated from the results of lntgcl, lnlnc, and lnkτ versus 1/T, respectively. The three values of E were close, which indicated that above analyses were self-consistent.
ISSN:0256-7679
1439-6203
DOI:10.1007/s10118-016-1847-8