Enhanced Mathematical Modeling of DOP Plasticizer Migration from PVC into Liquid (Methanol)

M. Miloudi, A. Yala, M. Mokhtari
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Abstract

Polyvinyl chloride, commonly abbreviated PVC is a rather hard and rigid material. In order to extend its use it requires additives during the manufacturing process which are referred to as plasticizers, among them the Dioctyl Phthalate (DOP). This latter has a tendency to escape from the PVC matrix specially when in contact with liquids. In order to analyse this phenomenon we use the classical equations of mass diffusion (Fick’s second law). However this method leads to results which are not always in good agreement with experimental ones, especially when the concentration of plasticisers is high. This situation requires the elaboration of an enhanced mathematical model that can deal with this particular type of forced diffusion characterized by the contact with a liquid and particular boundary conditions. The validation of the proposed model was obtained by comparing the theoretical results obtained with the model and those obtained by experiments.
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DOP增塑剂从PVC向液体(甲醇)迁移的改进数学模型
聚氯乙烯,通常简称PVC,是一种相当坚硬的材料。为了延长其使用寿命,在生产过程中需要添加增塑剂,其中包括邻苯二甲酸二辛酯(DOP)。后者有从PVC基质中逸出的倾向,特别是当与液体接触时。为了分析这种现象,我们使用经典的质量扩散方程(菲克第二定律)。然而,这种方法导致的结果并不总是与实验结果一致,特别是当增塑剂浓度很高时。这种情况要求制定一种改进的数学模型,以处理以与液体接触和特殊边界条件为特征的这种特殊类型的强迫扩散。将理论计算结果与实验结果进行了比较,验证了模型的正确性。
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