聚乙烯耐油及伴生水

I. R. Antipas
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引用次数: 0

摘要

介绍。聚乙烯是国民经济各个领域中应用最广泛的材料,用它制成的产品具有重量轻、不溶于有机溶液、强度令人满意等本质优点。然而,它的破坏机制是相当复杂的,取决于与它接触的工作条件和物质。研究了聚乙烯在静态、动态和室温条件下对油和伴生水的耐受性。方法与材料。该研究是在一个实验室装置上进行的,该装置用于通过聚乙烯管道中的各种液体(油,相关和蒸馏水),该装置由本文作者组装。在工作中,采用了统计和动态数据处理的方法。根据之前的实验结果,绘制了浸入颗粒重量和体积随时间变化的曲线图。他们已经证明聚乙烯具有二次依赖关系,并且在这项工作中研究的三种液体(蒸馏水,伴随水和油)的扩散是由菲克定律描述的。这表明液体通过聚乙烯的扩散速率是关键因素。讨论和结论。结果表明,液体在聚乙烯中的扩散速率是影响反应的关键因素。由于盐的存在,浸泡在油中比浸泡在伴生水或蒸馏水中有更大的影响。研究发现,石油通过的聚乙烯管壁的重量和厚度的相对变化大于相关的水通过的管壁。试验前后样品的微观截面图像也证实了所得结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Polyethylene Resistance to Oil and Associated Water
Introduction. Polyethylene is the most widely used material in various fields of the national economy, and products made of it have essential advantages, such as lightness, insolubility in organic solutions with quite satisfactory strength. However, the mechanism of its destruction is quite complex and depends on the working conditions and substances, which are in contact with it. The research purpose was to study the polyethylene resistance to oil and associated water under the static and dynamic conditions and at room temperature.Methods and Materials. The research was carried out on a laboratory device for passing various liquids (oil, associated and distilled water) in polyethylene pipes, assembled by the author of the article. While working, methods of statistical and dynamic data processing were applied.Results. Based on the results of previous experiments, graphs were plotted for the change in the weight and volume of immersed granules over time. They have shown that polyethylene has a quadratic dependence, and diffusion for the three liquids studied in this work (distilled water, accompanying water and oil) is described by Fick's law. This indicates the fact that the rate of liquid diffusion through polyethylene is the key factor.Discussion and Conclusions. The obtained results have shown that the rate of liquid diffusion through polyethylene is the key factor. Immersion in oil has a greater impact than immersion in associated or distilled water due to the presence of salts. It has been found out that the relative change in the weight and thickness of the polyethylene pipe walls through which oil passes is greater than those through which the associated water passes. Moreover, the microscopic cross sections images in the samples before and after the tests have confirmed the obtained results.
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