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引用次数: 2
摘要
本研究以植物油、花生、椰子、亚麻籽和蜂蜡为原料,对天然橡胶(NR)和丁苯共聚物(SBR)橡胶的硫化实验数据进行了验证,并对主要反应过程进行了分子模拟。半经验方法AM1 (Austin Model 1)表明,硬度的降低与弹性基体中的溶解度有关,是允许12个或更多碳原子的不饱和脂肪酸与氧化锌结合作为活化剂的因素。然而,位阻使得存在于蜂蜡中的木质素酸成为一种低性能的活化剂。对于花生和亚麻籽油中存在的18碳不饱和脂肪酸,不饱和增加了硫化过程中产生的物种的反应性。然而,这样的自然变化有不利的影响,因为可能会引起副作用,损害油的激活作用。
VULCANIZAÇÃO COM PRODUTOS NATURAIS: UMA ANÁLISE ATRAVÉS DA MODELAGEM MOLECULAR
In this investigation, experimental data of natural rubber (NR) and styrene-butadiene copolymer (SBR) rubber vulcanization with vegetable oils, peanut, coconut and linseed, in addition to beeswax, were validated through the molecular modeling of the main reactions of the process. Semi-empirical method AM1 (Austin Model 1) showed that the reduction in hardness, associated with solubility in the elastomeric matrix, is the factor that allows unsaturated fatty acids of 12 or more carbon atoms to act as activators in association with zinc oxide. However, steric impediment makes lignoceric acid, present in beeswax, a low performance activator. For the 18-carbon unsaturated fatty acids present in peanut and linseed oils, unsaturation increases the reactivity of the species generated during vulcanization. However, such a change in nature has an adverse effect, because probably induces side reactions that compromise the activating role of oils.
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