SU1279978A1 - Method of treating slag melt - Google Patents

Abstract

The invention relates to the production of building materials and can be used to process slag melt used as a component of the mixed in the slurry. To increase the hydraulic activity of the slag, increase the speed of hardening and increase the strength of a binder, a corrective additive from strontium-containing waste to enrich rare metal ores in an amount of 5-10 wt.% Is processed at a temperature of 700-900 0 for 1015 minutes, electromagnetic field of 5-20 A / m. 2 tab.

Description

Yu

QP

Claims (1)

00 112 The invention relates to the production of building materials and can be used for the processing of slag melt used as a component of a mixed feed. The purpose of the invention is to increase the hydraulic activity of the slag, increase the speed of hardening during the initial periods of normal storage and increase the strength of the mixed binder. The method of slag melt processing includes heat treatment of corrective additives and slag crushing, moreover, strontium-containing waste of enrichment of rare metal ores in the amount of 5-1.0 wt.% Is used as additives, which are treated at heating temperatures of 700-900 for 10-15 minutes when the melt is cooled, the slag is affected by an electric magnetic field of 520 A / m. The used strontium-containing waste1c1 is a powdery non-radioactive mass with a density of 2.8-2.9 g / cm, contains particles from 1-0.05 mm in size to 23%, less than 0.05 mm to 73%, and have a chemical composition presented in Table 1. The essence of the method is as follows. Corrective additive from strontium containing waste is subjected to heat treatment at 700– 900 ° C for 10–15 min, and then in an amount of 510 mass% of the mass of slag is introduced into the molten slag. In the process of natural cooling of the melt, slag is affected. vuyut electromagnetic field for example. 5–20 A / m until the end of the cooling process. Then, the cooled slag is crushed and used as a component mixed into a binder during joint grinding. Specific examples of the implementation of the method and the properties of the mixed real are presented in Table. 2 when compared with a known method. Heat treatment of strontium-containing wastes at 700–900 ° C leads to the decomposition of carbonates and nitrates of strontium and calcium, which increases the activity of the additive, and the fluctuation of activity in this temperature range does not exceed 5%. Crystallization of the cooled melt in a magnetic field orients the growing crystals of the neoplasms along the sylvula: while the vitreous component has localized paramagnetic centers containing SO tetrahedra. The presence of regions in the result of the formation of the joint action of an electromagnet X sulfate anion wave leads to an increase in the rate of hardening; at three days of age, the activity of Glacacea in the suspect reaches 30–40 MPa, and the final strength at 28 days of age is 70–78 MPa. The method can be used to obtain mixed, mixed, accelerated hardening. The formula of the method of processing slag melt, including heat treatment of corrective additives and the subsequent introduction into the melt, cooling it and crushing the resulting slag characterized in that, in order to increase the hydraulic activity of the slag, increase the speed of hardening in the initial periods of normal storage and improve the strength of the mixed binder , as additives, strontium-containing enrichment ores of rare metals are used in the amount of 5-10 wt.%, which are treated at 700-900С for e 10-15 min, while cooling the melt to slag it affects the electromagnetic field of a field strength of 5-20 A / m, and T a b l e 1 Strontium containing wastes 62.68 0.02 6p5 15.0 A, 5 0.1 0.98 0.02 0.03 0.02 0.1 0, 3 6.2 The intensity of the electromagnetic field when exposed to a cooled melt shpak, A / m 20 Properties of mixed-in-a-bout with the use of processed shpak (according to GOST 310-41): compressive strength of samples at the age of 28 days of normal storage, MPa The rate of curing in the hard in the early stages of hardening, MPa, Table 2 13 65 32 78