Research Unit of Ecological Building Technologies, Institute of Material Technology, Building Physics and Building Ecology, Vienna University of Technology, Karlsplatz 13/207-03, A-1040 Vienna, Austria
Henriette Fischer
Research Unit of Ecological Building Technologies, Institute of Material Technology, Building Physics and Building Ecology, Vienna University of Technology, Karlsplatz 13/207-03, A-1040 Vienna, Austria
Mervat Khalil
National Research Center of Housing and Buildings, Institute of Building Physics and Environment, Cairo 12622, Egypt
Eldira Sesto
Research Unit of Ecological Building Technologies, Institute of Material Technology, Building Physics and Building Ecology, Vienna University of Technology, Karlsplatz 13/207-03, A-1040 Vienna, Austria
Mohammed Orabi
Agricultural Engineering Research Institute, Nadi El -Said St. Dokki - P.O. Box 256, Giza 12411, Egypt
Ibrahim Yehia
Agricultural Engineering Research Institute, Nadi El -Said St. Dokki - P.O. Box 256, Giza 12411, Egypt
The construction industry is responsible for a large amount of both embodied carbon and emissions. Especially with concrete, there is still a lot of potential for designing recipes in a more ecological way. Approaches to reduce the environmental impact of concrete include the use of industrial and agricultural by-products. This study combines the approaches of replacing cement with granulated blast furnace slag and the use of NaOH-treated rice straw fibers. The research objective comprises the design of an ecologically optimized concrete as well as the question of whether a pretreatment of rice straw fibers with NaOH improves the performance of the designed concrete. The method includes mechanical and physical testing of the of the designed concrete as well as an optical analysis with a scanning electron microscope. The results indicated that treating rice straw with 1% NaOH indicates a better bond between fibers and the surrounding matrix. The tests in which the rice straw was treated with NaOH achieved a higher density, splitting strength, tensile strength and compressive strength. The study contributes an ecologically optimized concrete with granulated blast furnace slag and NaOH-treated rice straw concrete, which shows a great potential as an environmentally friendly, low-cost construction material.
