Abstract
This paper presents the result of replacing natural course aggregate with recycled cement-sand brick (CSB) towards the mechanical properties of concrete. Natural aggregates were used in this study as a control sample to compare with recycled coarse aggregates. This study was also carried to determine the optimum proportion of coarse aggregates replacement to produce lightweight concrete. Besides, this study was conducted to observe the crack and its behaviour development during the mechanical testing. Through this study, four types of concrete mixed were prepared, which were the control sample, 25%, 50% and 75% replacement of CSB. The test conducted to determine the effectiveness of recycled CSB as coarse aggregates replacement in this study were slump test, density measurement, compression test, and flexural test and. The strength of concrete was tested at 7 days and 28 days of curing. From the results obtained, the optimum proportion which produced the highest strength is 25% replacement of recycled CSB. The compressive and flexural strength has decreased by 10%-12% and 4%-34% respectively compared to the control sample. The presence of recycled coarse aggregates in sample has decreased the density of concrete by 0.8%-3% compared to the control sample.
Highlights
One of the significant problems nowadays is the accumulation and unsatisfactory management of construction and demolition waste
This is because the density of recycled cement-sand brick (CSB) is 2070 kg/m3 while the density of gravel is 2700 kg/m3, which is why the density keeps decreasing when the substitution of recycled CSB is increasing
The compressive strength of the concrete is decreasing by 10% to 12% when compare with control sample
Summary
One of the significant problems nowadays is the accumulation and unsatisfactory management of construction and demolition waste. It is increasing along with continuous spreading of industrialization and urbanization. It was stated that the construction and demolition waste can be recycled and reused as a raw material for new applications [1]. It has become an evident that good waste management can enhance better quality of life.
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