Residual mechanical resistance of concrete blocks and laying mortars after high temperatures

This paper reports an experimental campaign to evaluate the residual mechanical resistance after high temperatures of two structural masonry components: block and mortar. Residual compressive strength and deformation modulus of four different hollow concrete blocks and two different mortar mixes aft...

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Veröffentlicht in:	Fire and materials 2024-04, Vol.48 (3), p.324-337
Hauptverfasser:	Amaral, Rafaela de Oliveira, Moreno, Armando Lopes, Medeiros, Wallison Angelim, Parsekian, Guilherme Aris
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Sprache:	eng
Schlagworte:	Compressive strength concrete block Concrete blocks Concrete mixes Cylindrical bodies Deformability Deformation fire Formability Heat resistance Heating High temperature Mechanical properties mechanical strength Modulus of deformation mortar Mortars (material) residual compressive strength residual deformation modulusstructural masonry
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description	This paper reports an experimental campaign to evaluate the residual mechanical resistance after high temperatures of two structural masonry components: block and mortar. Residual compressive strength and deformation modulus of four different hollow concrete blocks and two different mortar mixes after heating at high temperatures are investigated. The test method used was the one recommended by RILEM TC 200 for mortars and an adaptation of the same method proposed by Medeiros et al. suitable for the geometry of hollow blocks. Despite the sharp drop in the deformation modulus after heating blocks and mortar, no different behaviours are observed in the deformability of the materials caused by the variables studied. The same cannot be said in relation to the variation of the residual compressive strength of the blocks, which is affected by the variables: initial nominal compressive strength and width of the concrete block. Regarding laying mortars, the results confirmed the small influence of compressive strength on the evolution of residual mechanical strength. The data and analyses reported here on the residual mechanical properties of hollow concrete blocks produced from a concrete mixture of very dry consistency, vibro‐pressed and with normal weight aggregates are relevant, since the data found in the literature generally refer to the wet cast concrete material and in cylindrical bodies.
doi_str_mv	10.1002/fam.3186
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Residual compressive strength and deformation modulus of four different hollow concrete blocks and two different mortar mixes after heating at high temperatures are investigated. The test method used was the one recommended by RILEM TC 200 for mortars and an adaptation of the same method proposed by Medeiros et al. suitable for the geometry of hollow blocks. Despite the sharp drop in the deformation modulus after heating blocks and mortar, no different behaviours are observed in the deformability of the materials caused by the variables studied. The same cannot be said in relation to the variation of the residual compressive strength of the blocks, which is affected by the variables: initial nominal compressive strength and width of the concrete block. Regarding laying mortars, the results confirmed the small influence of compressive strength on the evolution of residual mechanical strength. 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Residual compressive strength and deformation modulus of four different hollow concrete blocks and two different mortar mixes after heating at high temperatures are investigated. The test method used was the one recommended by RILEM TC 200 for mortars and an adaptation of the same method proposed by Medeiros et al. suitable for the geometry of hollow blocks. Despite the sharp drop in the deformation modulus after heating blocks and mortar, no different behaviours are observed in the deformability of the materials caused by the variables studied. The same cannot be said in relation to the variation of the residual compressive strength of the blocks, which is affected by the variables: initial nominal compressive strength and width of the concrete block. Regarding laying mortars, the results confirmed the small influence of compressive strength on the evolution of residual mechanical strength. 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subjects	Compressive strength concrete block Concrete blocks Concrete mixes Cylindrical bodies Deformability Deformation fire Formability Heat resistance Heating High temperature Mechanical properties mechanical strength Modulus of deformation mortar Mortars (material) residual compressive strength residual deformation modulusstructural masonry
title	Residual mechanical resistance of concrete blocks and laying mortars after high temperatures
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