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Evaluation of compressive behavior of ultra-lightweight cement composite after elevated temperature exposure

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Abstract This paper investigates the mechanical behavior of a new type of ultra-lightweight cement composite (ULCC) with density less than 1400 kg/m 3 and strength up to 60 MPa after exposing to… Click to show full abstract

Abstract This paper investigates the mechanical behavior of a new type of ultra-lightweight cement composite (ULCC) with density less than 1400 kg/m 3 and strength up to 60 MPa after exposing to elevated temperature up to 1000 °C. The residual compressive strength, elastic modulus, weight loss, failure modes and stress-strain curve behavior are studied experimentally. The heated specimens are explored both at macro and micro scales to investigate the physical behavior deterioration, color changes, cracking and spalling of ULCC at various temperatures. Chemical deterioration behavior is analyzed through XRD analysis and interfacial zone changes in ULCC matrix is examined by SEM observations. It is found that the ULCC containing high volume cenospheres and small amount of PVA fiber (0.2% and 0.5% in volume) exhibits promising thermal resistance compared to normal lightweight aggregate concrete and normal concrete of similar strength. The strength reduction rate and level of ULCC at elevated temperatures is smaller. Based on the test data, this paper proposes empirical equations to calculate the residual compressive strength and elastic modulus. Knowledge extracted from the experimental findings in this paper provides better understanding of the fundamental mechanical behavior of novel ultra-lightweight cement composite material after exposure to elevated temperature, which is helpful to develop design guide for fire resistance design of lightweight cement composite structures in the future.

Keywords: lightweight cement; ultra lightweight; elevated temperature; cement composite; behavior

Journal Title: Construction and Building Materials
Year Published: 2017

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