Abstract
The use of industrial waste materials as a substitute for cement in the manufacture of mortar is an alternative approach to reduce carbon dioxide emissions in building construction. In this study, processed waste tea ash (PWTA) obtained from the extraction tea plant was used to partially replace 0-40% cement in the manufacture of mortar. The effects of PWTA on the basic engineering properties of mortar are evaluated and compared to mortar without PWTA. Test results showed that workability and density of mortar decreased with increases in the PWTA content. Furthermore, no decline in compressive strength of concrete was observed up to 20% replacement of cement with PWTA at 7, 28 and 90 days and beyond that, the compressive strength decreased. Results obtained from this study indicate that PWTA can be used as partial replacement of cement up to 20% with comparable strength with normal mortar. This approach helps to minimize the usage of cement in mortar production and can reduce the negative impact of PWTA on the environment.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference9 articles.
1. J. Olivier, Janssens-Maenhout, J. Peters, Trend in global CO2 emission, PBL Netherlands Environmental Assessment Agency (2012).
2. A.R. Djamaluddin, M.A. Caronge, M.W. Tjaronge, I.R. Rahim, N. Md. Noor, Abrasion resistance and compressive strength unprocessed rice husk ash concrete, Asian J. Civ. Eng. 19 (2018) 867-876.
3. Sustainable concrete containing palm oil fuel ash as a supplementary cementitious material – A review;Thomas;Renewable and Sustainable Energy Reviews
4. M.J. Khalil, M. Aslam, S. Ahmad, Utilization of sugarcane bagasse ash as cement replacement for the production of sustainable concrete, Constr. Build. Mater. 270 (2021) 121371.
5. Evaluation of sustainable concrete paving blocks incorporating processed waste tea ash;Djamaluddin;Case Studies in Construction Materials