67 research outputs found
Déformations différées des Bétons à Hautes Performances : influence de la nature minéralogique des gravillons
Get PDFLes déformations différées des bétons à hautes performances (BHP) s’avèrent souvent
fortement sous estimées par les modèles règlementaires qui ne prennent pas en compte les
caractéristiques des matériaux constitutifs et en particulier des granulats. Cet article présente
une étude sur l'influence de caractéristiques des gravillons sur les déformations différées de
BHP. Six bétons ont été préparés en utilisant la même pâte, mais en incorporant différents types
de gravillons afin d'analyser les effets de leurs propriétés sur la résistance à la compression, le
module d'élasticité, le retrait et le fluage des bétons. Les résultats indiquent que le type de
granulat a une influence significative sur les déformations des BHP. La rigidité et la fraction
volumique des gravillons ont une influence sur le module d'élasticité et les déformations
différées. De plus, la résistance mécanique semble être corrélée aux caractéristiques de la
qualité d’interface pâte-granulats (ITZ) qui dépend de la nature minéralogique et des propriétés
géométriques des granulats. Les résultats expérimentaux sont comparés avec les valeurs
calculées en utilisant le modèle de l'Eurocode 2, afin d'évaluer l'exactitude de leurs prédictions
Effets de la nature de l’addition minérale sur la diffusion et la perméabilité au gaz des BAP
Get PDFLes études antérieures se focalisant beaucoup plus sur la comparaison entre le BAP
et le béton ordinaire vibré (BOV). Cet article vise à montrer l’influence de la nature de
certains ajouts minéraux (filler calcaire, pouzzolane naturelle et cendre volante) sur les
propriétés de transferts des bétons et à chercher une relation entre la diffusion et la
perméabilité au gaz des BAP. Le programme expérimental comprend, au total, douze
formulations couvrant trois différentes classes de résistances et quatre types de bétons. Les
résultats expérimentaux obtenus montrent une étroite relation entre les indicateurs de
durabilité et la nature de l’addition minérale dans les BAP. Pour les coefficients de diffusion
des ions chlore et de perméabilité à l’hélium, nous avons pu remarquer que l’incorporation
de la PZ ou de la CV dans les BAP a un effet très bénéfique sur ces deux paramètres de
transferts
Strength impairment of concrete mixed in hot weather: relation to porosity of bulk fresh concrete paste and maturity
Full text link Normal-strength concrete mixed in summer can be less strong than the annual average. One cause of these variations is the effect on concrete strength of the temperature of the constituents. Concretes were cast at different temperatures because of different temperatures of the constituents. The slump value, which is the criterion for acceptance on the building site, was kept constant whatever the initial temperature may be, either by the addition of water or by the use of a plasticiser at the end of mixing. Concretes were cured for 24 h under either the conditions specified in the French standard for manufacturing control or simulated hot weather conditions, and then stored in water at 20°C up to the time of test. Compressive strength was determined at 1, 7 and 28 day ages on 11 × 22 cm cylinders. The results show that the decrease in strength is dependent on the combined effective water and air content of the bulk paste of fresh concrete, and on the maturity of the concrete, which is influenced by its temperature history. By combining two classical relations: strength and design factors (Feret's relation) and strength and maturity (Arrhenius Law), decreases in strength could be analysed for any mixing and curing conditions. </jats:p
Performance-based approach for durability of concrete containing flash metakaolin as cement replacement
Full text linkDeveloping test methods for the determination of the performance and safety of bio-sourced Asphalt Release Agents (ARAs)
No full textUse of ammonium nitrate solution to simulate and accelerate the leaching of cement pastes due to deionized water
Full text link Studies in the laboratory on the durability of concrete are not easy to perform, particularly in the case ofa linkage between a chemical attack and a mechanical property variation. As a result, these studies require significant experimentation times because on the one hand the kinetics ofchemical degradation are very slow, and on the other hand the sample size has to be adapted to the aggregate size. One of the possibilities for solving these problems consists of developing accelerated tests allowing one to reproduce the real degradation undergone by the concrete during its history. This paper deals with the use of strongly concentrated ammonium nitrate solutions as an accelerated method for the degradation of cement-based materials by deionized water. The direct application of this work is to the durability ofconcrete containers used to store radioactive wastes. </jats:p
Early hydration of clinker–slag–metakaolin combination in steam curing conditions, relation with mechanical properties
Full text linkStrength impairment of concrete mixed in hot weather: analysis in relation to physical and chemical properties of hardened concrete
Full text link A previous paper reported that reductions in 28-day strengths were observed for manufacturing control specimens produced in summer conditions. It was shown that they were dependent on the porosity of the bulk paste of fresh concrete according to the initial temperature of the mix. Here, further investigations using physical and chemical approaches to seek explanations for these strength decreases in relation to the 28-day microstructure of concrete are presented. Scanning electron microscope observations revealed air bubbles and well-developed calcium hydroxide crystals which could explain in some cases the drops in strength. Porosity to water and absorption of water were increased whereas the degree of hydration was not affected. Secondary effects were highlighted when standard curing temperature (20°C) was not satisfied. </jats:p
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