Abstract
Clay bricks remain the most widely used materials in the building and construction industries, due to their good qualities, low cost and versatility compared to other materials for building purposes. More so, the large quantities of agricultural waste produced, such as rice husk resulting from high consumption of rice worldwide constitutes disposal problem and unhealthy environment. This waste can be recycled through inclusion as stabilizer in brick making, thereby eliminating the hazard posed to the environment. This paper examined the effects of rice husk ash (RHA) on the two termite clay soils in brick making. The two termite clay soils obtained from red and gray anthills were stabilized with rice husk ash at levels of 0 -10 % contents. The termite clay –rice husk bricks were fired at different temperature levels of 800oC - 900oC. The pasticity index varied upward with the addition of RHA contents. There was decreasing trend in the dry density values with increasing rice husk ash contents for both termite clay types. The inclusion of RHA in the two termite clay soils do not cause any change in optimum moisture content of the mixtures. Rice husk ash cause increase in the compressive strength of both termite clay bricks attaining maximum value at 4% and 6% for gray and red type, respectively. Further increase in the RHA content did not cause corresponding increase in the strength values of both termite clay bricks. Bricks produced from both termite clay soils attained the highest compressive strength at 900oC at all the RHA contents. The termite clay bricks burnt at the two temperature levels displayed increasing trend pattern in water absorption with increase in the RHA contents. There was decrease in the water absorption of both brick types burnt at higher temperature of 900oC. The analysis of variance (ANOVA) study indicate no significance differences in the compressive strength of termite clay brick samples due to rice husk ash content, firing temperature levels and termite hill type.Keywords: Clay bricks, termite hill, rice husk ash, stabilization, strength, building construction.
Highlights
Brick is traditional building material which due to its high quality in compressive strength, moisture absorption resistant, fire resistant, fungi-mould resistant and insulation earn it wide acceptance in the construction and building industries
This study evaluates the influence of rice husk ash (RHA) and types of termite hill on the physical and mechanical properties of burnt or fired termite clay bricks for general building purposes
The 6% blending mix of RHA and gray termite clay showed the highest value of 56% compared to 23.3% of the non-stabilised sample while the 8% blending mix of RHA and red termite clay indicates the highest value of 54% compared with 27% of non- stabilised
Summary
Brick is traditional building material which due to its high quality in compressive strength, moisture absorption resistant, fire resistant, fungi-mould resistant and insulation earn it wide acceptance in the construction and building industries. About 80% of the rural population still lives in low quality and substandard houses as they cannot afford the high cost of new building materials that can provide better dwellings and other infrastructures. Clay bricks have been identified as low cost and effective materials for dwellings and other infrastructures. Structures built of unfired clay bricks are vulnerable to weather and moisture conditions, swelling and shrinkage potentials, not durable and are less reliable (Horng, 2010). Research efforts are directed towards improving the quality of clay bricks through stabilization with cement, lime and various agricultural wastes materials; inclusion of natural fibres and burning (fired) (Murray et al, 1981; Rahman, 1987; Demir et al, 2005; Makunza, 2006; Chan, Yetgin et al, 2008; Binici, 2009; Okeshola, 2012). Not much has been reported on the utilization and improvement of the termite clay bricks
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