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http://dx.doi.org/10.4334/IJCSM.2009.3.1.003

Incorporation of CrusHed Sands and Tunisian Desert Sands in the Composition of Self Compacting Concretes Part I: Study of Formulation

Rmili, Abdelhamid (Civil Engineering Laboratory, Tunis National Engineering School, ENIT)
Ouezdou, Mongi Ben (Civil Engineering Laboratory, Tunis National Engineering School, ENIT)
Added, Mhamed (Testing and Construction Techniques Center, CETEC)
Ghorbel, Elhem (LM2GC, University Of Cergy Pontoise)

Publication Information

International Journal of Concrete Structures and Materials / v.3, no.1, 2009 , pp. 3-9 More about this Journal

Abstract

This paper examines the incorporation of the crushed sand (CS) and desert sand (DS) in the formation of self compacting concrete (SCC). These sands have been substituted for the rolled sand (RS), which is currently the only sand used in concretes and which is likely to run out in our country. DS, which comes from the Tunisian Sahara in the south, is characterized by a tight distribution of grains size. CS, a by-product of careers containing a significant amount of fines up to 15%, is characterized by a spread out granulometry having a maximum diameter of around 5mm. These two sands are considered as aggregates for the SCC. This first part of the study consists in analyzing the influence of the type of sand on the parameters of composition of the SCC. These sands consist of several combinations of 3 sands (DS, CS and RS). The method of formulation of the adopted SCC is based on the filling of the granular void by the paste. The CS substitution to the RS made it possible, for all the proportions, to decrease the granular voids, to increase the compactness of the mixture and to decrease the water and adding fillers proportioning. These results were also obtained for a moderate substitution of DS/CS (< 40%) and a weak ratio of DS/RS (20%). For higher proportions, the addition of DS to CS or RS did not improve the physical characteristics of the SCC granular mixture.

Keywords

self compacting concrete; desert sand; crushed sand; rolled sand; granular packing; formulation;

Citations & Related Records

Reference

1	Bederina, M., Khenferb, M. M., Dheillyc, R. M., Queneudec, M., “Reuse of Local Sand: Effect of Limestone Filler Proportion on the Rheological and Mechanical Properties of Different Sand Concretes,” Cement and Concrete Research, Vol. 35, 2005, pp. 1172-1179. DOI ScienceOn
2	Okamura, H., Ozawa, K., and Ouchi, M., “Self-Compacting Concrete,” Structural Concrete, No. 1, 2000, pp. 3-17.
3	Domone, P. L., “Self-Compacting Concrete: An Analysis of 11 Years of Case Studies,” Cement and Concrete Composites, Vol. 28, 2006, pp. 197-208. DOI ScienceOn
4	Ayed, K., Benaissa, A., Pons, G., Vidal, T., and Benhouna, M., Optimisation de la Formulation des Bétons Autoplacants par les Matériaux Locaux, Cmedimat, Oran Aléerie, 2005
5	Zhang, G., Song, J., Yangb, J., and Liu, X., “Performance of Mortar and Concrete Made with a Fine Aggregate of Desert Sand,” Building and Environment, Vol. 41, 2006, pp. 1478-1481. DOI ScienceOn
6	Su, N., Hsu, K.C., and Chai, H. W. “A Simple Mix Design Method for Self-Compacting Concrete,” Cement Concrete Research, Vol. 31, 2001, pp. 1799-807. DOI ScienceOn
7	Sedran, T. and de Larrard, F. RENE-LCPC, “Un Logiciel Pour Optimiser la Granularite des Matériaux du Génie Civil, Note Technique,” Bulletin de Liaison des Laboratoires des Ponts et Chaussées, No. 194, 1994, pp. 87-93.
8	Nan, S. and Buquan, M., “A New Method for the Mix Design of Medium Strength Flowing Concrete with Low Cement Content,” Cement and Concrete Composites, Vol. 25, 2003, pp. 215-222. DOI ScienceOn
9	De Larrard, F., Concrete Mixture Proportioning. A Scientific Approach, In: Mindess S, Bentur A (eds) Modern Concrete Technology, 9, E & FN Spon, 1999, London
10	Brouwers, H. J. H. and Radix, H. J., “Self-Compacting Concrete: Theoretical and Experimental Study,” Cement and Concrete Research, Vol. 29, 2007, pp. 1-12. DOI ScienceOn
11	Achour, T., Lecomte A., Ben Ouezdou, M., Mensi, R., Joudi I., “Contribution of the Fillers Limestones to the Paste-Aggregate Bond: Tunisian Examples,” Materials and Structures, Vol. 41, No. 5, 2008, pp. 815-830. DOI ScienceOn
12	Domone, P. and Wen, C. H., “Testing of Binders for High Performance Concrete,” Cement and Concrete Research, Vol. 27, 1997, pp. 1141-1147. DOI ScienceOn
13	SABLOCRETE, “Béton de Sable, Caractéristiques et Pratiques d'Utilisation,” Synthèse du Projet National de Recherche et Développement, Ed. Presses de l' Ecole Nationale des Ponts et Chaussées, Paris, France, 1994, (in French)

1	Tayeb Bouziani. (2012) International Journal of Concrete Structures and Materials Effect of dune sand on the properties of flowing sand-concrete (FSC) / 6 (1) , 59
17	Brahim Nécira. (2017) Journal of Adhesion Science and Technology Study of the combined effect of different types of sand on the characteristics of high performance self-compacting concrete / 31 (17) , 1912
9	(2018) Journal of Materials in Civil Engineering Characterization and Modeling of Tensile Strength of High-Limestone Filler Concretes for Pavement / 30 (9) , 04018223

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