Abstract
The cement industry has the potential to become a major consumer of recycled waste materials that are transformed and recycled in various forms as aggregates and pozzolanic materials. These recycled waste materials would otherwise have been dumped in landfill sites, leaving hazardous elements to break down and contaminate the environment. There are several approaches for the reuse of these waste products, especially in relation to clay minerals that can induce pozzolanic reactions of special interest in the cement industry. In the present paper, scientific aspects are discussed in relation to several inert coal-mining wastes and their recycling as alternative sources of future eco-efficient pozzolans, based on activated phyllosilicates. The presence of kaolinite in this waste indicates that thermal treatment at 600 °C for 2 h transformed these minerals into a highly reactive metakaolinite over the first seven days of the pozzolanic reaction. Moreover, high contents of metakaolinite, together with silica and alumina sheet structures, assisted the appearance of layered double hydroxides through metastable phases, forming stratlingite throughout the main phase of the pozzolanic reaction after 28 days (as recommended by the European Standard) as the reaction proceeded.
Highlights
A key vector of opportunity in the construction sector, in general, and for manufacturers of cement-based materials, in particular, is the efficient use of materials and energy resources, which moderates the carbon footprint of the final products
The coal waste that has been studied had a mineralogical composition of kaolinite, micas, quartz, calcite, dolomite, and feldspars
The presence of kaolinite indicated that thermal treatment at 600 °C/2 h transformed kaolinite in metakaolinite, a highly reactive component of the pozzolanic reaction
Summary
A key vector of opportunity in the construction sector, in general, and for manufacturers of cement-based materials, in particular, is the efficient use of materials and energy resources, which moderates the carbon footprint of the final products. The research, validation, and enhancement of new mineral additives for cement should ensure their availability in sufficient quantities for profitable investments, thereby reducing the environmental impacts of Portland-cement-clinker production, the overall volume of waste products, and the energy consumption of the final product. These additives assist reactivity that densifies the hydration products. Coal waste (in abundant amounts from various extraction processes) is disposed
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