Marble waste and recycled concrete aggregates in self compacting concrete (SSC): an evaluation of fresh and hardened properties

Ofuyatan, Olatokunbo M. and Enoch, Kayode-Thomas and Ogundeji, Oluwafuminiyi and Omole, D. O. (2022) Marble waste and recycled concrete aggregates in self compacting concrete (SSC): an evaluation of fresh and hardened properties. Australian Journal of Civil Engineering.

PDF Download (8MB)

Abstract

Abundant waste is being generated in the demolition or renovation in the construction industry. Improper disposal of this waste creates environmental concern as they form huge landfills without proper use. This study examined the fresh, hardened, durability, and micro- structural analysis of self-compacting concrete made with recycled aggregates (RA) and marble waste as a 10–30% granite substitute. Slump flow test, T50cm test, V-funnel test, and L-box test were conducted on the fresh concrete. Compressive strength, split tensile strength, flexural strength, microstructural properties, and carbonation of the hardened concrete were deter- mined. The physical tests revealed that though the recycled aggregates and marble waste do not have properties as good as the natural coarse aggregates, recycled aggregates were observed to exhibit a better strength than marble waste. SCC with marble waste had better fresh state properties than those with recycled aggregates. SCC with recycled aggregates had better-hardened state properties than those with marble waste. It can be inferred from the microstructural analysis that the utilisation of partial granite replacement improved the inter-action between the concrete constituents. However, the sample with recycled aggregate was still better than that with marble waste in this regard.

Item Type:	Article
Uncontrolled Keywords:	Recycled aggregate; self-compacting concrete; marble waste; properties
Subjects:	T Technology > T Technology (General) T Technology > TA Engineering (General). Civil engineering (General)
Divisions:	Faculty of Engineering, Science and Mathematics > School of Civil Engineering and the Environment
Depositing User:	AKINWUMI
Date Deposited:	26 Jan 2023 10:55
Last Modified:	26 Jan 2023 10:55
URI:	http://eprints.covenantuniversity.edu.ng/id/eprint/16549

Actions (login required)

View Item