Granular materials based on expanded sands and their production waste

IF 0.8 Q4 METALLURGY & METALLURGICAL ENGINEERING
O. Miryuk, L. Zagorodnyuk
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Abstract

The article presents the results of studies of granular materials obtained by non-firing technology. For the formation of granules, composite cement and magnesia binders containing waste products of expanded perlite and expanded clay are proposed. Mechanical activation of composite binders intensifies the processes of hydration and structure formation, contributes to increasing the strength of materials. The combination of a binder with a filler in the form of waste from the production of porous aggregates ensures a decrease in the density of the binder, the formation of a finely dispersed porous structure of the composite material, the formation of stable hydrates. The porous structure of the granules is provided by the use of porous sand to form the core of the granules. Studies of the structure of granules by electron microscopy revealed that the reliable adhesion of particles of porous sand with a composite binder stone provides high strength of porous granular materials. Cement granules based on expanded perlite sand are characterized by a density of 300 – 400 kg/m3 and a compressive strength of 1.8 – 2.6 MPa. Magnesia granules based on expanded clay sand have a density of 450 – 500 kg/m3 and compressive strength of 3.5 – 5.7 MPa. The work is aimed at creating effective building materials using resource-saving technology, at the rational use of production waste.
基于膨胀砂的颗粒材料及其生产废料
本文介绍了用非烧成技术获得的颗粒状材料的研究结果。为了形成颗粒,提出了含膨胀珍珠岩和膨胀粘土废料的复合水泥和氧化镁粘结剂。复合粘合剂的机械活化加强了水化和结构形成的过程,有助于提高材料的强度。结合剂与填充物的形式,从多孔骨料的生产废料,确保粘合剂的密度降低,复合材料的精细分散的多孔结构的形成,稳定的水合物的形成。颗粒的多孔结构是通过使用多孔砂来形成颗粒的核心来提供的。通过电子显微镜对颗粒结构的研究表明,多孔砂颗粒与复合粘结石的可靠粘附提供了高强度的多孔颗粒材料。膨胀珍珠岩砂基水泥颗粒的密度为300 ~ 400kg /m3,抗压强度为1.8 ~ 2.6 MPa。膨胀粘土砂基氧化镁颗粒的密度为450 ~ 500 kg/m3,抗压强度为3.5 ~ 5.7 MPa。这项工作的目的是利用资源节约型技术创造有效的建筑材料,合理利用生产废料。
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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来源期刊
自引率
42.90%
发文量
55
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