Improving workability of cement paste backfill using new binders

- Taheri, Abbas, Zhao, Y., Soltani, Amin, Karakus M., Deng, A.

Title
Improving workability of cement paste backfill using new binders
Creator
Taheri, Abbas; Zhao, Y.; Soltani, Amin; Karakus M.; Deng, A.
Date
2019
Type
Text; Conference paper
Identifier
http://researchonline.federation.edu.au/vital/access/HandleResolver/1959.17/182944
Identifier
vital:16215
Abstract
In this study effects of binder type and content and curing time on the compressive strength development of cement paste backfill (CPB) is investigated. Moreover, the effects of binder type and content and water content on the rheological properties of CPB material were studied. To undertake an experimental study, tailings of a copper mine in South Australia are mixed with binder and water. A new slag-cement called Mine Cement (MC) and ordinary Portland cement (PC) are used as the primary binder materials. Furthermore, fly ash (FA) is used as an additive to reduce the amount of the cement. Some CPB samples were cured under pressure to be more representative of the field conditions. MC exhibited better performance that PC regarding compressive strength development. Fly ash improved the compressive strength of CPB. However, this binder observed to be much less cementitious compare to MC. Strength performance of the CPB sample significantly improved when there were cured under pressure. Based on the results obtained from the test undertaken using a rheometer, it was found that increasing the water content results in lower yield stress. The results also show that MC improves the rheological properties of the CPB.
Publisher
International Society for Soil Mechanics and Geotechnical Engineering
Relation
13th Australian New Zealand Conference on Geomechanics, 1-3 April 2019, Perth Australia
Rights
All metadata describing materials held in, or linked to, the repository is freely available under a CC0 licence
Rights
Copyright @ 2019 Australian Geomechanics Society
Rights
Open Access
Full Text
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