Application of bio-fuel by-product sugarcane bagasse ash (SBA) as a principal raw material for the manufacturing of bricks was studied. The bricks were developed using the quarry dust (QD) as a replacement to natural river sand and lime (L) as a binder. SBA as a principal raw material was characterized using X-ray fluorescence (XRF), thermo-gravimetric analysis (TGA), X-ray diffraction and scanning electron microscopy (SEM). XRF confirms SBA as a cementitious material. TGA confirms thermal stability till 650°C, whereas SEM monograph shows individual ash with a rough surface and numerous fine pores. Elemental analysis of quarry dust and lime was also carried out using XRF and classic wet test. The physical properties of quarry dust and lime were determined using the laboratory test methods. SBA-QD-L combination bricks were designed and developed in different mix proportions. Physico-mechanical properties of the developed bricks were studied according to recommended standards. The results of the SBA-QD-L bricks were compared with physico-mechanical properties of commercially available burnt clay-and-flyash bricks. It was observed that SBA-QD-L bricks are lighter in weight, energy efficient and meet compressive strength requirements of IS 1077:1992. The bricks also serve the purpose of solid waste management and innovative sustainable construction material. The bricks can be used in local construction especially for non-load-bearing walls.
Keywords
Bricks, Quarry Dust, Lime, Sugarcane Bagasse Ash.
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