液体乙烯基硅树脂的制备及固化反应动力学

合成了一种液体乙烯基硅树脂，并用FT-IR、GPC、¹H NMR和²⁹Si NMR等手段对其结构进行表征。采用非等温差示扫描量热法（DSC）研究了乙烯基硅树脂/苯基含氢硅油体系的固化反应动力学，用Kissinger方程和高级等转化率法（Vyazovkin方法）分别计算了该体系的表观活化能E_a，用Málek法进行模型拟合动力学分析，通过T-β外推法确定该体系的固化工艺参数。结果表明：Kissinger法和Vyazovkin法得到的活化能分别为85.3 kJ·mol^-1和84.0 kJ·mol^-1，二者所得结果的差别较小；乙烯基硅树脂体系固化动力学符合?esták-Berggren（m，n）模型，m和n分别为0.092、1.440，拟合曲线与实验的DSC曲线吻合；该树脂体系的近似凝胶化温度为89.1℃，固化温度为127.8℃，后处理温度157.6℃。

Preparation and curing reaction kinetics of liquid vinyl silicone resin

A liquid vinyl silicone resin was prepared. Its structure was confirmed by FT-IR, GPC, ¹H NMR, ²⁹Si NMR. The curing kinetics of vinyl silicone resin/ phenyl hydrogen silicone oil system was studied by isothermal DSC. The activation energy of this system was obtained by the Kissinger method and advanced iso-conversional method proposed by Vyazovkin. The non-isothermal reaction kinetics was investigated based on the model-fitting Málek method. The curing parameters were obtained by the T-b extrapolation method. The results showed that the apparent activation energies of the curing reaction were 85.3 kJ·mol^-1 and 84.0 kJ·mol^-1 calculated by Kissinger method and Vyazovkin method, respectively. The ?esták-Berggren(m,n) model was found to be appropriate to describe the curing kinetics of the studied silicone resin system and the theoretically calculated curve agreed well with the experimental data. The characteristic temperatures of the resin system were approximate gelling temperature of 89.1℃, curing temperature of 127.8℃, and post-processing temperature of 157.6℃.