1. Recycling mica and carbonate-rich mine tailings in alkali-activated composites:a synergy with metakaolin
- Author
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Niu, H. (He), Abdulkareem, M. (Mariam), Sreenivasan, H. (Harisankar), Kantola, A. M. (Anu M.), Havukainen, J. (Jouni), Horttanainen, M. (Mika), Telkki, V.-V. (Ville-Veikko), Kinnunen, P. (Päivö), Illikainen, M. (Mirja), Niu, H. (He), Abdulkareem, M. (Mariam), Sreenivasan, H. (Harisankar), Kantola, A. M. (Anu M.), Havukainen, J. (Jouni), Horttanainen, M. (Mika), Telkki, V.-V. (Ville-Veikko), Kinnunen, P. (Päivö), and Illikainen, M. (Mirja)
- Abstract
The main objective of this paper was to investigate the alkali activation of mine tailings (MT) after mechanochemical activation and the effect of metakaolin (MK) addition. Finnish mica-rich tailings from a phosphate mine were studied as precursors for alkali-activated materials (AAM) with a potential application as a substitute for ordinary Portland cement (OPC). The principal physical properties (water absorption, apparent porosity and unconfined compressive strength) were measured for samples containing 30% to 70% tailings. Zeolite phases such as natrolite and cancrinite were observed and the formation of C-(N)-A-S-H¹ and N-A-S-H gels was identified by XRD, DRIFT, FESEM-EDS and NMR technologies. A life cycle assessment (LCA) was conducted on specimens in comparison to OPC. This work indicated that phosphate MT can be recycled through alkali activation with lower CO₂ emission compared to all-metakaolin geopolymers and that the binder phase formed at the most promising tailings contents (60– 70%) was C-(N)-A-S-H gel.
- Published
- 2020