Journal of Materials Science Research and Reviews

The use of oil palm broom fibre (OPBF) which is usually burnt as waste contributes to carbon dioxide (CO₂) emission in the atmosphere, as a sustainable reinforced construction material will provide both cost and environmental benefits. Combining OPBF and lime in compressed earth blocks as a construction material will further provide technical benefits in improving the mechanical properties of the blocks. This study investigates the physico-mechanical properties of compressed earth blocks stabilised with varying lengths and contents of OPBF and lime for housing provision. Laterite, 10% constant lime, and OPBF of 10, 20, and 30mm lengths, and 0.25, 0.5, and 0.75% by weight of laterite were used for preparing the blocks. The properties of the blocks were assessed between 7 and 28 days of curing. Compressive strength test, tensile strength test, water absorption test, and scanned electron microscopy (SEM) analysis were conducted on the OPBF and lime-stabilised compressed earth blocks. The 10mm and 0.5% OPBF and lime-stabilised compressed earth blocks achieved the lowest water absorption of 3.04% as compared to the highest water absorption of 9.78% recorded by the unstabilised blocks. The 20mm length with 0.5% content of OPBF achieved the optimum compressive strength of 6.641N/mm² as compared to the ustabilised specimens of 5.976N/mm², representing about 10% compressive strength increase. For the tensile strength, the 20mm length with 0.5% OPBF content specimens achieved the highest strength of 0.423N/mm² as compared to the ustabilised specimens of 0.326N/mm², representing about 23% increase in the tensile strength. The microstructural analysis of the specimen revealed micro-gaps at the periphery of the OPBF, and micro-cracks within the composite material. The study, therefore concludes that appropriate length and content of OPBF and lime enhance the physico-mechanical properties of compressed earth blocks. It is, therefore, recommended that 20mm length with 0.5% OPBF content should be used by practitioners to enhance the physico-mechanical properties of compressed earth blocks for use to provide housing accommodation.