Abstract
Magnesia–chromite refractory has been extensively used in the copper-making industry. It is necessary to understand the degradation mechanisms of the current refractory to develop new refractories. In the present study, post mortem refractories from a smelting furnace were analyzed and compared with the results of static corrosion tests on magnesia–chromite refractories in the laboratory at high temperatures. The microstructure and phase composition were carefully investigated by electron probe x-ray microanalysis to understand the degradation mechanisms of the magnesia–chromite refractory in copper smelting conditions. The degradation mechanisms between the magnesia–chromite refractory and the copper smelting slag and CuO transformed from matte are discussed based on the analysis of the post mortem refractory samples and laboratory tests. These results will enable optimization of the industrial process and development of new refractories for copper smelting furnaces.
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