Si-Cu contact mass for catalysis in coatings industry for oil and gas pipes

Oil and Gas Studies Pub Date : 2023-11-17 DOI:10.31660/0445-0108-2023-5-46-54

A. S. Zhilin, O. I. Rebrin, M. A. Malykh, M. S. Pechurin, I. Kovenskiy

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Abstract

Two contact masses were obtained and analyzed for their catalytic properties in the production of hydrophobic coatings. These masses are based on the silicon-copper system and consist of 25%Cu-75%Si and 50%Cu-50%Si compositions. A standard method of copper(I) chloride reduction was optimized to obtain finely dispersed copper particles with high catalytic activity. It is shown that reduction is possible directly in contact with silicon, the resulting average diameter of copper particles is 5-10 microns in both contact masses (25%Cu-75%Si and 50%Cu-50%Si). A metallographic analysis revealed a loose morphology of the silicon-copper phase interfaces, which is necessary to enhance the catalytic activity of the contact masses. Local chemical analysis by scanning electron microscopy has established the ratio of the particle size of the initial polycrystals of copper chloride(I) and the resulting copper particles as a result of reduction on silicon. The process of deep reduction makes it possible to obtain particles up to 5 microns in size. These results provide useful insights into the formulation of coatings containing organosilicon compounds to reduce friction in hydrocarbon transport.

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用于油气管道涂料工业催化的硅铜接触质量

我们获得了两种接触块，并分析了它们在疏水涂层生产中的催化特性。这些接触块基于硅-铜体系，由 25%Cu-75%Si 和 50%Cu-50%Si 组成。对氯化铜（I）还原的标准方法进行了优化，以获得具有高催化活性的细分散铜颗粒。结果表明，铜可以直接与硅接触还原，在两种接触质量（25%Cu-75%Si 和 50%Cu-50%Si ）中，铜颗粒的平均直径均为 5-10 微米。金相分析表明，硅-铜相界面形态疏松，这是提高接触块催化活性的必要条件。通过扫描电子显微镜进行的局部化学分析确定了最初的氯化铜（I）多晶体和在硅上还原产生的铜颗粒的粒径比。通过深度还原工艺，可以获得 5 微米大小的颗粒。这些结果为配制含有有机硅化合物的涂层以减少碳氢化合物运输过程中的摩擦提供了有益的启示。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Oil and Gas Studies

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