Effect of the type of superplasticizer on the properties of cementitious systems incorporating slag |
| |
Authors: | Ahmed Laichaoui Ablam Zidol Ratiba Mitiche-Kettab Abderrahim Bali Arezki Tagnit-Hamou |
| |
Affiliation: | 1. Laboratoire Matériaux de Génie Civil &2. Environnement, école Nationale Polytechnique d’Alger, El-Harrach, Algeria;3. Laboratoire des matériaux cimentaires alternatifs, Université de Sherbrooke, Sherbrooke, Québec, Canada |
| |
Abstract: | Superplasticizers have become an integral ingredient in the formulation of concretes. After 40?years, their use and dosage remain uncertain due to variations in their compositions and those of cement. In addition, the substitution of cement by supplementary cementitious materials having different chemical compositions exacerbates the problem without counting the multiplicity of superplasticizers to choose from. The present work consists of a study of the rheological and mechanical properties of cementitious systems containing slag and various types of superplasticizers. The tests were carried out on pastes, mortars and concretes incorporating slag in partial cement replacement and four superplasticizers types, polynaphthalene sulphonate (PNS) and three polycarboxylates (PC). The results of this study demonstrate that the viscosity and the yield stress increase with the rate of incorporation of the slag. The air increases with the polycarboxylates but this effect is less perceptible in the presence of the slag. Polycarboxylates improve workability more than PNS. The use of polycarboxylates reduces the viscosity and the yield stress. The compressive strength of concretes containing slag is low at early age but high at long run. They exhibit good resistances to scaling. The permeability to chloride ions is considerably reduced in the presence of the slag independently of the type of superplasticizer, suggesting good durability of these concretes in potentially aggressive external environments. |
| |
Keywords: | slag cement paste mortar superplasticizer rheological properties hydration rate durability |
|
|