Moisture Diffusion in Silica/Clay/Natural Rubber Hybrid Composites

B. Pajarito, Mark Rigel R. Ali
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Abstract

This study investigated moisture diffusion in natural rubber (NR) hybrid composites filled with silica and bentonite clay. Natural bentonite (BNT) was treated with tetradecyldimethylammonium chloride and coco diethanolamide to produce modified bentonite (M-BNT). Varied proportions of silica, M-BNT, and BNT fillers were added to raw NR according to a third-degree simplex lattice mixture design of experiment. The addition of fillers affects the vulcanization characteristics, mechanical properties, and hardness of NR hybrid composites. Moisture diffusion behavior was studied by monitoring the water uptake of NR composites during immersion in deionized water at 80°C. Data from sorption experiments were fitted on the classical Fickian and Langmuir-type diffusion models. The Fickian model overestimates and underestimates the water uptake of NR composites in the early and later stages of moisture diffusion, respectively. On the other hand, the Langmuir-type model adequately captures the anomalous diffusion behavior of moisture in NR composites. Parameters of the Langmuir model (equilibrium water uptake and diffusion coefficient) vary with the composition of hybrid fillers. Optimum proportions of silica, M-BNT, and BNT in rubber composites were obtained by considering the effect of fillers on mechanical properties and moisture diffusion characteristics of NR.
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二氧化硅/粘土/天然橡胶混合复合材料中的水分扩散
研究了硅土和膨润土填充的天然橡胶(NR)杂化复合材料中水分的扩散。以天然膨润土为原料,经十四烷基二甲基氯化铵和可可二乙醇酰胺处理,制备改性膨润土(M-BNT)。根据实验的三次单纯点阵混合设计,将不同比例的二氧化硅、M-BNT和BNT填料添加到原料NR中。填料的加入影响了NR混杂复合材料的硫化特性、力学性能和硬度。通过监测NR复合材料在80℃去离子水浸泡过程中的吸水率,研究了其水分扩散行为。吸附实验的数据被拟合到经典的Fickian和langmuir扩散模型上。Fickian模型分别高估和低估了NR复合材料在水分扩散初期和后期的吸水性。另一方面,langmuir型模型充分捕捉了NR复合材料中水分的异常扩散行为。Langmuir模型的参数(平衡吸水和扩散系数)随混合填料的组成而变化。通过考虑填料对NR力学性能和水分扩散特性的影响,得到了二氧化硅、M-BNT和BNT在橡胶复合材料中的最佳配比。
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