Lund University Publications

Compatibility between Flooring Materials and Concrete

• Mark

Abstract

This article outlines an experimental and numerical study on compatibility between flooring materials and concrete. Full-scale cylinders and slabs with different kinds of floorings were tested. The cylinders were studied in the laboratory, and cured in the same way as at a building site. The slabs were ground, treated with plaster and/or untreated (reference concrete). These slabs were water-cured and/or air-cured. Analyses were carried out on the volatile organic compounds from the flooring systems at the Swedish Testing and Research Institute, SP, Borås, on the alkali profile at Scancem Research Ltd., Slite and on the moisture conditions of the concrete at Lund University, Lund. The results show the influences of a layer of plaster, of... (More)

This article outlines an experimental and numerical study on compatibility between flooring materials and concrete. Full-scale cylinders and slabs with different kinds of floorings were tested. The cylinders were studied in the laboratory, and cured in the same way as at a building site. The slabs were ground, treated with plaster and/or untreated (reference concrete). These slabs were water-cured and/or air-cured. Analyses were carried out on the volatile organic compounds from the flooring systems at the Swedish Testing and Research Institute, SP, Borås, on the alkali profile at Scancem Research Ltd., Slite and on the moisture conditions of the concrete at Lund University, Lund. The results show the influences of a layer of plaster, of porosity, of the type PVC carpet and of the type of adhesive on the measured volatile organic compounds. Moisture content, i.e., relative humidity, carbonation depth and alkalicontent of the concrete had a minor effect on the measured volatile organic compounds.

Les lignes générales de cet article ont trait à une étude numérique expérimentale de la compatibilité entre des matériaux utilisés sur les sols et le béton. Les tests ont été réalisés à échelle 1, sur des cylindres et des plaques avec des matériaux différents. Les cylindres ont été étudiés en laboratoire et traités de la même manière que dans une conctruction. Les plaques ont été polies et traitées au plastique et/ou non traitées (béton de référence). Les plaques ont été soumises à l’eau ou à l’air. L’analyse de la composition organique volatile a été réalisée par l’Institut suédois de tests et de recherches, SP, de Borås, celle du profil alcalin par Scancem Research Ltd., et celle du taux d’humidité par l’Université de Lund. Les résultats montrent une influence de la couche plastique, de la porosité et du type de tapis PVC ainsi que du type de colle sur la composition organique volatile mesurée. Le taux d’humidité, c’est-à-dire l’humidité relative, la profondeur de carbonatation, le taux alcalin du béton ont un effet mineur sur la composition organique volatile. (Less)