Abstract

Red mud, an industrial waste obtained from alumina plants, is usually discharged into marine or disposed into a landfill polluting the surrounding water, atmosphere, and soil. Thus, disposal of red mud is an environmental concern and it should be recycled in an effective way. Since red mud consists of iron- and aluminum-rich phases, it can potentially be processed into cementitious material and can be used for a construction purpose. This research investigated the synthesis of nanoferrite (NF) clinker by using red mud as a raw material through chemical combustion technology for potential use in cement-based composite. Before the synthesis of NF, red mud was characterized by using XRF, XRD, and SEM techniques. From characterization results, the stoichiometric ratio of raw materials was calculated and experimentally optimized. The sample was then tested at various temperatures (815, 900, 1000, and 1100°C) to find the optimum synthesis temperature. Finally, the hydraulic activity of NF was verified and the contribution to mechanical properties was determined by replacing cement with NF at various substitution levels (0, 5, 10, and 20 wt%). Test results showed that the optimum condition for the synthesis of NF was found when the ratio of CaCO3/red mud was 1.5 and the sintering temperature was 815°C. The synthesized NF had an average diameter of 300 nm, and the main composition was brownmillerite (C4AF) with distinct hydraulic reaction. When NF was used as a substitute of Portland cement in mortar, the flexural strength with a 5% replacement level improved by 15%. Therefore, it can be concluded that the synthesis of NF provides an alternative approach to recycle red mud and could significantly help in reducing environmental pollution.

Highlights

  • Red mud, produced by the Bayer process, is an industrial waste obtained during the production of aluminum

  • According to the available literature [22], most of the time, red mud is usually characterized by only X-Ray Diffraction (XRD) or X-Ray Fluorescence (XRF) methods

  • As far as XRF is concerned, it can only identify the relative proportion of elements instead of phases, it is important for the stoichiometric calculation

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Summary

Introduction

Red mud, produced by the Bayer process, is an industrial waste obtained during the production of aluminum. Based on the composition of red mud, it can be recycled and used in a variety of fields. It can be used as a recovery of metals or can be used as a potential alternative catalyst since it mainly consists of a mixture of oxides of Fe, Al, and Ti and a smaller amount of Si, Ca, and Na [6, 7]. A variety of red mud-based cements have been fabricated, such as Portland cement [11], self-compacting cement [12], and alkaliactivated cement [13]. It could greatly enlarge the Journal of Nanomaterials application area of red mud if new cement-based composites containing red mud are developed

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