MODIFICATION OF SYNTHETIC RAW MATERIAL BASED ON SODIUM HYDROXIDE FOR PRODUCING GLASS

The research continues the direction of intensification of glass-making processes by completely replacing soda ash in the glass batch with sodium hydroxide to obtain a well-classified intermediate two-component raw material. A method for obtaining a modified synthetic raw material (SRMm) for producing sodium-calcium-silicate glass based on quartz-containing raw material and sodium hydroxide is considered. SRMm consists of two parts, the chemical composition of one of which corresponds to the low-melting eutectic on the Na2O-SiO2 diagram, in contrast to the prototype SRM, the chemical composition of which corresponds to the chemical composition of silicate glass. The products of the synthesis of parts of quartz sand and sodium hydroxide are mixed with the rest of the components of the glass batch of alkali-silicate glasses, followed by possible agglomeration by known methods. The results of a comparative X-ray phase analysis of experimental charges, as well as heat-treated pelletized samples, show more pronounced glass formation processes in a charge based on SRMm than using the prototype. The use of experimental charges can intensify the physicochemical reactions at the stage of melting in a glass-making furnace, reduce the maximum melting temperature of glass, reduce the carryover of dust-like components of the charge and the technogenic load on the environment.