2020
DOI: 10.3390/ma13081981
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Residual Compressive Strength of Recycled Aggregate Concretes after High Temperature Exposure

Abstract: Sustainability requirements are gaining importance in the construction industry, which needs to take specific measures in the design and construction of concrete structures. The use of recycled aggregates in concrete may be of special interest. Recycling a construction waste will close the life cycle of the original materials (e.g., concrete). Thus, environmental benefits would come from the lower waste generation, and from a lower necessity of raw materials for new structures. The current Spanish code for str… Show more

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Cited by 29 publications
(6 citation statements)
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“…The second stage, which is a semi-stabilization stage with a very small positive slope, is related to the strength recovery and low reduction between 300 and 500 • C, where the microstructure is still not very affected by the chemical and physical changes due to temperature exposure. Finally, the weight loss starts another high-slope reduction region after 500 • C, where the cement matrix was cracked owing to the chemical changes, and the bond between the cement and aggregate was almost lost due to the different thermal movements [78,79]. Excluding the initial strength gain at 100 • C and the strength recovery at 300 • C, it can be said that the strength loss can be related to the loss in weight.…”
Section: Compressive Strengthmentioning
confidence: 99%
“…The second stage, which is a semi-stabilization stage with a very small positive slope, is related to the strength recovery and low reduction between 300 and 500 • C, where the microstructure is still not very affected by the chemical and physical changes due to temperature exposure. Finally, the weight loss starts another high-slope reduction region after 500 • C, where the cement matrix was cracked owing to the chemical changes, and the bond between the cement and aggregate was almost lost due to the different thermal movements [78,79]. Excluding the initial strength gain at 100 • C and the strength recovery at 300 • C, it can be said that the strength loss can be related to the loss in weight.…”
Section: Compressive Strengthmentioning
confidence: 99%
“…Although the alteration of the properties of rocks exposed to high temperatures has been widely studied during the last years, in most cases, the work is done under ideal laboratory conditions using electric furnaces, while investigations with exposure to real fire are scarce and usually limited to the analysis of historical buildings affected by fires [ 6 ]. It is clear that the use of electric furnaces in the laboratory allows the simplification and standardization of tests in order to facilitate the comparison of results with those of other investigations [ 7 ]. However, the atmosphere created inside the furnace does not reflect the real conditions of a building during the fire event, largely because the main mechanism of heat transmission is convection in the former case and radiation in the latter [ 8 ].…”
Section: Introductionmentioning
confidence: 99%
“…Finally, sets 01, 04 and 07 were not heated at all in order to act as control samples. The target temperature was selected on the basis of previous studies [1,17], as it has been proven that this rock exhibits a dramatic loss of physical and mechanical properties at 600 • C. Several tests had been carried out previously, measuring with thermocouples the air temperature in the oven as well as inside some specimens, which allowed small corrections to be made with respect to the theoretical heating curve programmed in the device [28]. Regarding the behavior of the heated samples, it is important to highlight that no spalling or fractures were observed, as opposed to a previous work with real fire exposure [17], where some samples were severely damaged, especially in the quick water-cooled sets.…”
Section: Experimental Program and Test Set-upmentioning
confidence: 99%