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Title: | Pulverized Calcined Clay and Carbide Waste as Alternative Binder in Concrete and Mortar Applications for Sustainable Construction |
Authors: | Joshua, Opeyemi Olusola, Kolapo O. Fagbenle, Olabosipo I. Olawuyi, B. James Adebayo, Lameed Ogunde, Ayodeji O. Afolabi, Adedeji Olorunsola, Segun M. |
Keywords: | Pulverized calcined clay (PCC); Calcium carbide-waste (CCW); Alternative binder; Pozzolanic activity; Cement replacements; Setting times. |
Issue Date: | Apr-2018 |
Publisher: | Construction Research Congress 2018, LSU College of Engineering, USA |
Citation: | Joshua, O., Olusola, K.O., Fagbenle, O.I., Olawuyi, B.J., Adebayo, I., Ogunde, A.O., Afolabi, A. & Olorinsola, S.M. (2018) |
Abstract: | Portland cement (PC) based concrete is the world’s most consumed man-made material and this consequently puts lots of demand on cement as a binder. The CO2 gas emission during cement clinker production has placed this important material into non-environmental-friendly classification with the quest for greener alternatives being on the rise. A recent study showed a combination of Pulverized Calcined Clay (PCC) and Calcium Carbide Waste (CCW) as a possible alternative for total PC replacement with resulting appreciable mortar strength but delayed setting times and lower strength than PC mortars. This paper reports on the effects of PCC-CCW as an alternative binder on the strength properties of mortars. The mortar mixes had superplasticizers added to reduce water/binder ratio while the CCW was treated to reduce impurities with a view to improving the strength development and a bid to mitigate the observed setbacks of earlier study. The pozzolanic activity indices of the PCC were determined via X-Ray Fluorescence (XRF) and strength determination (strength activity index). The PCC was combined with Purified CCW to determine the binder’s strengths at varying PCC: CCW replacements to determine the prescribed mix combination for optimum strength. Improved optimized mortar strength of 13.11MPa was achieved compared to 11.89MPa in the previous study. |
URI: | http://repository.futminna.edu.ng:8080/jspui/handle/123456789/10564 |
Appears in Collections: | Building |
Files in This Item:
File | Description | Size | Format | |
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Pulverized Calcined Clay and Carbide Waste - Joshua et al - Olawuyi 2018.pdf | 264.82 kB | Adobe PDF | View/Open |
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