The Formation, Properties and Use of Dispersed Iron-Graphite Metallurgical Waste

Leonid Dan, V. Maslov, L. Trofimova, G. Cios
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Abstract

Dispersed wastes containing graphite, iron, and its oxides, getting into the air and accumulating in landfills, cause serious harm to human health and the environment. Moreover, even if the issue of the localization of these wastes has been solved successfully, their disposal has not yet been fully organized. In the present study, a systematic analysis of the dispersed iron-graphite waste (IGW) conditions for the formation at metallurgical enterprises, their structure, and their properties were carried out. In this case, special attention is focused on the electrophysical properties: specific saturation magnetization and volume resistivity. The presence of magnetic properties in IGW, combined with low electrical resistivity, makes IGW a promising and inexpensive raw material for obtaining cheap composite materials with radio shielding and radio absorbing properties in the microwave range. As a result of the research, effective ways of improving the magnetic properties of IGW by high-temperature treatment were obtained. The practical result of the research was the development and implementation of a technological scheme of dispersed IGW complex processing, which makes it possible to solve a twofold task – to exclude the ingress of iron-graphite wastes into the environment and to obtain a cheap material for protection against microwave radiation.
分散铁石墨冶金废料的形成、性质及利用
含有石墨、铁及其氧化物的分散废物进入空气中并在垃圾填埋场堆积,对人体健康和环境造成严重危害。此外,即使成功地解决了这些废物的地方化问题,它们的处置也尚未得到充分安排。本文系统分析了冶金企业中分散铁石墨废弃物(IGW)的形成条件、结构和性质。在这种情况下,特别关注的是电物理性质:比饱和磁化和体积电阻率。IGW中磁性能的存在,加上低电阻率,使IGW成为一种有前途的廉价原料,可以在微波范围内获得具有无线电屏蔽和无线电吸收性能的廉价复合材料。研究得出了通过高温处理提高IGW磁性能的有效途径。该研究的实际结果是开发和实施了一种分散的IGW复合处理技术方案,这使得解决双重任务成为可能-排除铁石墨废物进入环境并获得一种廉价的材料来防止微波辐射。
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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