High temperature material properties of calcium aluminate cement concrete: Fid-Bau Portal

High temperature material properties of calcium aluminate cement concrete

Khaliq, Wasim / Khan, Hammad Anis

Highlights • High temperature properties of calcium aluminate cement concrete were evaluated. • CACC exhibited better compressive and tensile strength in 20–800°C range. • Elastic modulus and stress–strain response indicate a better performance of CACC. • Compressive toughness property showed improved response in CACC up to 800°C. • Visual and microscopic assessment helped understand microstructure of CACC.

Abstract In this study, material properties of calcium aluminate cement concrete (CACC) were investigated at various temperatures of 23, 200, 400, 600 and 800°C. Material properties namely compressive strength, splitting tensile strength, elastic modulus, stress–strain response, mass loss and compressive toughness were measured using unstressed and residual test methods. High temperature performance of CACC was compared with conventional normal strength concrete (NSC). Data from high temperature tests of CACC revealed that the presence of alumina as a binding agent showed considerable enhancement in the mechanical performance compared to NSC. At elevated temperatures, reduction in the stress–strain response was observed in both CACC and NSC; however, increase in axial strain was more in case of CACC. Compressive toughness was higher in case of CACC as compared to NSC which increases up to 200°C, but decreases beyond this temperature. Scanning electron microscope (SEM) was used to differentiate the microstructural changes in both types of concrete at temperatures up to 600°C. Visual investigations after high temperature exposure revealed that CACC exhibits low cracking with less color changes as compared to NSC. Data generated from material property tests was utilized to develop simplified relations for expressing material properties of CACC as a function of temperature.