2021
DOI: 10.1061/(asce)mt.1943-5533.0003694
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Material Characterization Approach for Modeling High-Strength Concrete after Cooling from Elevated Temperatures

Abstract: Advanced numerical modelling of high-strength concrete ( c > 60 MPa) structures designed to withstand severe thermal conditions requires detailed and reliable information on the mechanical properties of the material exposed to elevated temperatures. The only uniaxial compressive strength variation with temperature is not enough to satisfy the big number of parameters often required by advanced non-linear constitutive models.For this reason, a complete experimental investigation is required. The paper takes a c… Show more

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Cited by 6 publications
(20 citation statements)
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“…Due to the importance of the different performances of various concretes against high temperatures, in this section, an attempt is made to provide a comparison between the residual mechanical properties of CACC with those of other concretes (investigated in the literature) after exposure to heat, with some parameters being variable. By comparing the residual compressive strength of different concretes shown in Figure 14 [ 15 , 40 , 41 , 54 , 57 ], the better performance of CACC, particularly for temperatures higher than 400 °C, is observed; this results from the lower dehydration and chemical water evaporation in the CACC cement matrix relative to OPC. In the results reported by Khaligh, the residual compressive strength percentage is higher than that reported in this study; this is the result of a higher alumina content in the cement and a higher heating rate in that study.…”
Section: Resultsmentioning
confidence: 99%
“…Due to the importance of the different performances of various concretes against high temperatures, in this section, an attempt is made to provide a comparison between the residual mechanical properties of CACC with those of other concretes (investigated in the literature) after exposure to heat, with some parameters being variable. By comparing the residual compressive strength of different concretes shown in Figure 14 [ 15 , 40 , 41 , 54 , 57 ], the better performance of CACC, particularly for temperatures higher than 400 °C, is observed; this results from the lower dehydration and chemical water evaporation in the CACC cement matrix relative to OPC. In the results reported by Khaligh, the residual compressive strength percentage is higher than that reported in this study; this is the result of a higher alumina content in the cement and a higher heating rate in that study.…”
Section: Resultsmentioning
confidence: 99%
“…A detailed and comprehensive discussion of the mechanical properties of the concrete used for the RC slabs is given in [34]. Mechanical properties of concrete were evaluated at ambient and high temperatures.…”
Section: Concretementioning
confidence: 99%
“…Two nominally identical specimens were tested in residual conditions at different temperature levels (20,200,400, and 600 °C). Further details on the material test set-up, specimen sizes and instrumentation can also be found in [34]. The average modulus of elasticity from the three tests at 20 °C, and its standard deviation were equal to 𝐸 𝑐,20 = 27609 ± 829 MPa.…”
Section: Concretementioning
confidence: 99%
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