ИСПОЛЬЗОВАНИЕ В ПРОИЗВОДСТВЕ ЖАРОСТОЙКИХ БЕТОНОВ АЛЮМОСОДЕРЖАЩЕГО НАНОТЕХНОГЕННОГО СЫРЬЯ И ОТХОДОВ УГЛЕОБОГАЩЕНИЯ

Abstract

In this work, using waste from the chemical industry — aluminum-containing nanotechnogenic raw materials and a fuel and energy complex — coal enrichment based on phosphate binders, heat-resistant concrete with high physical and mechanical properties is obtained. Thanks to the use of orthophosphoric acid as a binder, it was possible to utilize 80-90% of chemical industry waste and coal preparation, which helps to reduce the anthropogenic load on the environment and humans. Studies show that as the grain size decreases, the total size of the interface is increased, the average radius of curvature of the convex sections decreases, their excess surface energy grows, and the distances between the sources and absorbers of vacancies in the system decrease. Experimental studies and rich practical experience in ceramic industries confirm the crucial role of the degree of grinding (or the use of nanoscale raw materials). Due to the action of this factor alone, it is possible in some cases to reduce the required sintering temperature by 50-100 °C or more. The use of industrial wastes in the production of building materials contributes to: a) the utilization of industrial wastes; b) environmental protection; b) the expansion of the raw material base for heat-resistant concrete based on phosphate binders.