Browsing by Author "Benbrahim, Fahima"
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Item Effet des granulats de verre mousse sur les propriétés rhéologiques et physico-mécaniques du Mortier Autoplaçant(Université M'Hamed Bougara Boumerdès: Faculté de Technologie, 2015) Benbrahim, Fahima; Safi, Brahim(Promoteur)Cette étude a pour objectif de voir l'influence des granulats légers à base du verre mousse sur les propriétés rhéologiques et physicomécaniques du mortier autoplaçant. Les granulats de verre mousse,seront préparés à partir de la poudre de verre (calcin) et un agent moussant (calcaire) selon le traitement thermique appliqué pour la fabrication du verre mousse (850°C pendant 20min).Après la préparation des granulats légers,des mortiers autoplaçants seront élaborés à base des granulats fins (sable),puis d'autres variantes des mortiers autoplaçants en substituant le sable par les granulats de verre mousse à des rapports (0,30,50 et 100% en masse).Des essais de caractérisation rhéologique (fluidité) et physicomécaniques (masse volumique,porosité/absorption d'eau, tests ultrasoniques et résistances mécaniques) seront réalisés sur ces mortiers. Les résultats ainsi obtenus,seront comparés avec les caractéristiques d'un mortier autoplaçant témoin (sable naturel)Item Performance of Self-Compacting mortars containing foam glass granulate(2015) Safi, Brahim; Aboutaleb, Djamila; Saidi, Mohammed; Benmounah, Abdelbaki; Benbrahim, FahimaItem Rheological and physic-mechanical properties of self-compacting mortars based on granulated foam glass(2020) Daoui, Abdelhakim; Anh Phan, Vu To; Safi, Brahim; Benbrahim, FahimaThe foam glass is currently used in the manufacture of concretes as granulates to produce lightweight concrete. In this respect, this study aims to use foam glass granulates with open-porosity to produce lightweight self-compacting mortars. GFG were prepared from the glass powder (glass cullet) and foaming agent (limestone) according to current applied process for GFG (at a heat treatment 850 °C during 20min). Then they suffered preparation processes as sand, namely crushing and sieving (0-5mm). After, self-compacting mortars were elaborated with natural fine aggregate (sand) and other mortars with granulated foam glass by sand substitution at volume ratios (0, 30, 50 and 100 %). Rheological characterization tests (fluidity) and physic-mechanical (density, porosity /absorption of water and mechanical tests) were carried out on studied mortars. The results obtained show that open-porosity of GFG-sand, has favored adhesion with cementitious matrix without having the segregation of mortar phases. Also, a decrease in the compressive strength was observed for mortars exhibiting a specific lightness. It should be noted that this latter characteristic is very important in construction especially insulation materials