Author(s)

Tahir Kibriya¹, Leena Tahir²

¹Ex Faculty/Head of Civil Engineering Department, NUST, Risalpur, Pakistan (Presently Senior Consulting Engineer, Black & Veatch, Toronto, Canada).
²MSc Structural Engineering, City University, London, UK.

Massive amounts of brick waste are obtained from demolition of old buildings and structures around the world. With the increased stress on sustainable construction, and environmentally friendly materials and greener concreting practices, a large proportion of such waste bricks are crushed and mixed with normal aggregates for use in concrete. The performance of concrete containing waste brick aggregates partially replacing normal aggregates have not been investigated for their performance. This paper covers investigations carried out on concrete with such aggregates obtained from demolition waste and mixed with varying proportions of normal aggregates to produce concrete. Two types of crushed brick aggregates were mixed with gravel in the ratios of 30:70 and 40:60 by weight and specimen were cast for investigations. Two w/c ratios were investigated. Various tests were carried out to assess the compressive strength of cubes and cylinders of mixed aggregates concrete along with f1exural strength, stress/strain behavior, moduli of elasticity, ultrasonic pulse velocity determination, densities, surface absorption, shrinkage and frost resistance. The values obtained from these tests were compared with the values of concrete with normal aggregates (gravel) with similar w/c ratios. While the strength tests and durability tests more or less gave satisfactory results however the larger moisture absorption by the waste brick aggregates reduces the frost resistance capacity somewhat thereby care needs to be exercised in using these mixes in regions/areas susceptible to frost.

Demolition Waste, Construction Waste, Recycled Aggregates, Recycled Aggregates Concrete, Sustainable Construction, Environmental Friendly Waste, Green Concrete

Kibriya, T. and Tahir, L. (2017) Use of Masonry Construction & Demolition Waste in Concrete. World Journal of Engineering and Technology, 5, 216-231. doi: 10.4236/wjet.2017.52017.