PRINCIPLES FOR DEVELOPING LIQUID MIXTURES FOR SCREENING WIDE FREQUENCY RANGE ELECTROMAGNETIC FIELDS

JOURNAL of Donetsk mining institute Pub Date : 1900-01-01 DOI:10.31474/1999-981x-2022-1-108-113

O. Panova, Yana Biruk

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Abstract

Purpose: A liquid material based on commercially available paints and fine iron ore concentrate has been created. With a filler content of 60-70 %, the coefficients of shielding of the electric field of industrial frequency is 2,6-9,1; magnetic field of industrial frequency is 4,5-6,2; electromagnetic field of ultrahigh frequency is 4,4-8,5. At the same time, the reflection coefficients of electromagnetic waves are at least twice lower than those of metal screens. Method: A calculation tool is provided for converting the weight content into the volume content of the shielding filler. This makes it possible to apply the Lorentz and Maxwell-Garnett ratios to predict the electrical and magnetic properties of metal dielectrics. To determine the reliability of adhesion of the obtained mixtures with the application surfaces, the study of the chemical and colloidal properties of the mixtures for application on gypsum board has been performed. Scientific novelty: It is established that the reduction of surface tension, surface wetting angle, work of adhesion, cohesion and wetting forces, spreading coefficient are within the limits that ensure the reliability and durability of adhesion of the material to surfaces. Results: It is shown that the reduction of the protective properties on the water-dispersion carrier is due to the oxidation of the filler. Liquid compositions are made on the basis of a number of paints and varnishes and iron ore concentrates, which can cover large surfaces in various shapes and configurations. Practical significance: In order to use the obtained mixtures in the fields of ensuring the electromagnetic compatibility of electrical and electronic equipment, it is necessary to increase the protective properties. This is possible by increasing the concentration of the shielding filler or increasing the specific conductivity of materials in the solid state by adding to the liquid mixture of fine material with high conductivity.

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开发用于筛选宽频率范围电磁场的液体混合物的原理

目的:一种液体材料的基础上，市售油漆和细铁矿石精矿已创建。填料含量为60 ~ 70%时，工频电场的屏蔽系数为2,6 ~ 9,1;工业频率磁场为4、5-6、2;超高频电磁场为4,4-8,5。同时，电磁波的反射系数比金属屏至少低2倍。方法:提供一种将屏蔽填料的重量含量换算为体积含量的计算工具。这使得应用洛伦兹比和麦克斯韦-加内特比来预测金属电介质的电和磁特性成为可能。为了确定所获得的混合物与应用表面粘附的可靠性，对石膏板上应用的混合物的化学和胶体特性进行了研究。新颖性:确定了表面张力的减小、表面润湿角、粘附功、黏聚力和润湿力、扩散系数都在保证材料表面粘附可靠性和耐久性的范围内。结果:水分散载体的防护性能下降是由于填料氧化所致。液体组合物是在许多油漆和清漆以及铁矿石精矿的基础上制成的，它可以覆盖各种形状和结构的大表面。实际意义:为了将所获得的混合物用于保证电气电子设备电磁兼容性的领域，需要提高防护性能。这可以通过增加屏蔽填料的浓度或通过添加到具有高导电性的细材料的液体混合物中来增加固体状态下材料的比导电性来实现。

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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JOURNAL of Donetsk mining institute

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