Abstract:

In this study, the effects of high temperatures up to 1050°C on the mechanical properties of ternary binder system containing calcium aluminate cement, white cement and anhydrite gypsum lightweight mortars containing different amounts of mica and magnesia were investigated. Before the mortar samples were exposed to high temperature, the hardened density, porosity, and compressive strength developments related to the curing time were determined. Then, the compressive strengths of the samples subjected to high temperature were analyzed. According to the analysis results, as the mica and magnesia usage rate increased, the hardened mortar unit volume mass decreased, and their porosity ratio increased. At the highest Mica+MgO powder ratio, unit volume mass value decreased by an average of 13.9% compared to the control mortar. Porosity increased by 5.7% - 52.9% depending on the use of mica. Especially until the mixture design with a total mica+MgO ratio of 24%, the strength values of the test samples after 28 days increased by 71.8% compared to the control mortar. In the control mixture samples, the loss of strength after temperature interactions at 400˚C, 550˚C, 800˚C and 1050˚C was determined as 2.3%, 5.7%, 48.3% and 63.8%, respectively. In the mixture design with a Mica+MgO ratio of 20%, the loss of strength after temperature interactions was determined as 1.2%, 1.7%, 9.7% and 14.5%, respectively. In the mixture design using 40% mica+MgO, the strength loss after 1050˚C temperature interactions were determined to be only 2.8%. In this study, the suitability of using mica in half flake size and MgO in powder form in an amount that can reasonably allow strength reduction in mortar mix design that may be exposed to high temperatures at the application site was determined.

Keywords: