M.S. Hilal scite author profile

The test results of an earlier experimental investigation conducted at Memorial University of Newfoundland on high-strength concrete slabs indicated that as the concrete slab strength increased from 35 to 75 MPa the shear strength increased by 7-20%, depending on the case of loading, i.e., concentric or eccentric loads. The increasing ratio of shear strength is less than half that prescribed in the Canadian code CSA-A23.3 (1994) or the ACI-318 code (1995). Hence, the significant difference between the experimental results and the predicted strength by existing North American codes tacitly means that the proportionality between the shear strength and the square root of the compressive strength is not accurate enough to predict the shear strength of high-strength concrete slabs. In the present investigation, a fracture mechanics model suitable for concrete was proposed. It was also suggested that this model might be an advantageous aid in the analysis of the shear failure of reinforced concrete slabs. In this research investigation the fracture mechanics approach utilizing finite element aided computer analysis of several reinforced slabs is briefly described, and calculated shear failure loads are given. The recommended model proves that it is necessary to consider not only the tensile strength of concrete, instead of the square root of the compressive strength, but also the tensile fracture properties of high-strength concrete. The tensile fracture properties of concrete are characterized by the parameter called characteristic length and the brittleness of concrete. The brittleness ratio of concrete slabs must be considered in any rational shear design expression to reflect the size effect factor and the aggregate type.Résumé : Les résultats d'essais d'une étude expérimentale menée antérieurement à Memorial University of Newfoundland au sujet de dalles de béton à haute performance ont indiqué qu'une augmentation la résistance du béton de 35 à 75 MPa amène une augmentation de 7-20% de la résistance au cisaillement, tout dépendant des conditions de chargement, i.e., s'il s'agit de charges concentriques ou excentriques. Le rapport de croissance de la résistance en cisaillement est moins de la moitié que celui prescrit dans la norme canadienne CSA-A23.3 (1994) ou ACI-318 (1995). La différence substantielle entre les résultats expérimentaux et la résistance déterminée selon les normes nord américaines actuelles indique tacitement que la proportionnalité entre la résistance au cisaillement et la racine carrée de la résistance en compression n'est pas assez précise pour prédire la résistance en cisaillement des dalles en béton à haute performance. Dans la présente étude, un modèle de mécanismes de rupture adapté pour le béton fut proposé. Il est suggéré que ce modèle puisse s'avérer un outil avantageux dans l'analyse de la rupture en cisaillement des dalles de béton armé. L'étude des mécanismes de rupture, obtenue à l'aide de l'analyse informatique, par la méthode des éléments finis de plusieurs dalles en béton armé, e...

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M.S. Hilal

Effect of mixing and curing waters on the behaviour of cement pastes and concrete part 1 : Microstructure of cement pastes

Effect of mixing and curing waters on the behaviour of cement pastes and concrete Part 2: Properties of cement paste and concrete

Behavior of eccentrically loaded high strength concrete columns jacketed with FRP laminates

Tests on FRP-retrofitted tension-controlled eccentric and biaxial high strength concrete columns

Sensitivity of shear strength to fracture energy of high-strength concrete slabs

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