Abstract
Coal gangue is a kind of solid waste produced in the coal mining and preparation. Abundant SiO 2 and Al 2 O 3 are contained in coal gangue, which has potential cementitious activity. Therefore, the preparation of cementitious materials from coal gangue powder has broad application prospects. The effect and mechanism of the cementitious activity of thermally activated coal gangue powder on the pore structure, microscopic morphology , and mineral composition of the interfacial transition zone in concrete were studied. The results showed that the flexural and compressive strengths of concrete prepared with cement replaced by 15 wt% thermally activated coal gangue powder at 800 °C were 0.39% and 5.94% lower than those of pure cement concrete and 7.47% and 20.17% higher than those of raw coal gangue powder concrete. Mainly because abundant active Al 2 O 3 and SiO 2 released by thermally activated coal gangue powder at 800 °C reacted with the cement hydration product calcium hydroxide, calcium silicate hydrate gel was produced, and then the pores in the interfacial transition zone were filled and transformed into smaller pores, resulting in the pore structure and microscopic morphology of the interface transition zone being optimized, and the bond between the matrix and aggregate becoming closer.
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