Author:
Bingöl A. Ferhat, ,Özkal Yeşim Meral,
Abstract
Since global warming affects the world, using environmentally friendly products in every aspect of our lives is of great importance for both current and future generations. The firing stage in the cement production process corresponds to approximately 5% of the world's carbon emissions. The increasing cost of cement production and the high carbon emissions caused by production have encouraged people to seek alternative construction materials to cement. Addition of the pozzolan as construction materials to the mortar and concrete improves the various properties of these mixtures. The aim of this study is to investigate the mortar production process and compressive strength of mortars produced using different ratios of zeolite and fly ash, after the high temperatures effect. After being heated to the various temperature levels, changes in the compressive strength with the increase of temperature were examined.
Publisher
Asociatia Profesionala in Tehnologii Moderne de Fabricatie
Reference15 articles.
1. "1. Ananyachandran, P., Vasugi, V., (2022). Development of a sustainable high early strength concrete incorporated with pozzolans, calcium nitrate and triethanolamine: An experimental study, Sustainable Energy Technologies and Assessments, 54.
2. 2. Baradan, B., Yazıcı, H., Aydın, S., (2010). Concrete. Dokuz Eylül University Publications, İzmir.
3. 3. Baradan, B., Yazıcı, H., Ün, H., (2010). Durability in Concrete and Reinforced Concrete Structures. Turkish Ready Mixed Concrete Association, İstanbul.
4. 4. Bingöl, A. F., Gül, R., (2009). Residual Bond Strength Between Steel Bars and Concrete after Elevated Temperatures, Fire Safety Journal, 44, 854-859.
5. 5. Khoury, G.A., (2000). Effect of fire on concrete and concrete structures, Progress in Structural Engineering Materials, 2, 429-447.