Refractory Cellular Concrete Based on Phosphate Binder from Waste of Production and Recycling of Aluminum

Abstract

The article is considering the results of development of refractory cellular concrete based on aluminum-phosphate binder. It was prepared from aluminum production slag, aluminum recycling slag and aluminum etching sludges. The selection of aluminum phosphate is based on the fact that the aluminum-phosphate binders and materials are the most refractory. Fire clay, wastes of corundum production and used aluminum-chromium catalyst IM-2201 were used as aggregates. These are dispersed alumina and high-alumina industrial waste that do not require additional costs for milling. The basic properties of raw materials have been tested.The heat-resistant phosphate cellular concrete was developed based on fire clay and the corundum production waste, it has working temperature 1400-1600°C. Cellular concrete is setting due to the exothermic reaction fine powder of aluminum and phosphate binder. The porosity is formed by the reaction of metal - phosphate binder. The phase composition of the phosphate binders was investigated after setting and heating. The scheme of the phase composition changes is presented. The main heat-resistant properties are investigated for the resulting cellular concrete. It is found that the obtained material is not inferior to cellular concrete with pure aluminum-phosphate binder.