Study on Reducing the Sintering Temperature of Ceramic Body by Orthogonal Experiment Method
In the context of the current severe energy situation and China's"dual carbon and dual reduction"policy,it is imperative for building ceramic enterprises to reduce production energy consumption.This article aims to reduce the sintering temperature of building ceramic products and uses an orthogonal experimental method to investigate the effect of different types of raw materials and ratios on the sintering temperature of building ceramic bodies.Meanwhile,the experimental results indicate that introducing boron magnesium powder into the raw material formula of ceramic tile bodies can form a quaternary composite flux of K2O-Na2O-MgO-B2O3.This flux effectively reduces the sintering temperature of the bodies,broadens the sintering temperature range,and shortens its sintering cycle,thereby achieving ultra-low temperature sintering of ceramic tile bodies.Consequently,it effectively reduces the production energy consumption of ceramic tile bodies and lowers the production cost of ceramic products.
Orthogonal experiment methodSzaibelyiteLow temperature sinteringPorcelain tileGreen body
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