Thermal activation of inert basaltic materials to create supplementary cementitious materials

Ying Wang, Prannoy Suraneni
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引用次数: 1

Abstract

The concrete industry faces an urgent need to identify new supplementary cementitious material (SCM) sources. One class of materials available in large volumes are basaltic materials, which are often stockpiled in landfills as a waste product from quarries and granule operations. Reactivity testing on some such materials has shown them to be inert. The thermal activation of basaltic fines, and their mixtures with fly ash and limestone was therefore evaluated in a furnace using different process variables. Physical and chemical characterization using X-ray diffraction, Fourier transform infrared spectroscopy, and electron microscopy was performed on the raw and thermally activated materials. The reactivity of the resulting materials was directly measured. Heating beyond 1300 °C and cooling results in complete amorphization for the tested materials and resulted in the highest reactivity. Thus, the activation of basaltic fines into SCMs is feasible, although optimization to reduce temperatures is needed.

惰性玄武岩材料的热活化以产生辅助胶凝材料
混凝土行业迫切需要确定新的补充胶凝材料(SCM)来源。大量可用的一类材料是玄武岩材料,这些材料通常作为采石场和颗粒作业的废物储存在垃圾填埋场。对一些此类材料的反应性测试表明它们是惰性的。因此,在熔炉中使用不同的工艺变量对玄武岩细粒及其与粉煤灰和石灰石的混合物的热活化进行了评估。使用X射线衍射、傅立叶变换红外光谱和电子显微镜对原材料和热活化材料进行了物理和化学表征。直接测量所得材料的反应性。超过1300°C的加热和冷却会导致测试材料完全非晶化,并产生最高的反应性。因此,将玄武岩细粒活化为SCMs是可行的,尽管需要优化以降低温度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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