References
- Okamura H, Ouchi M. Self-compacting concrete. J Adv Concr Technol. 2003;1:1–15.
- Okamura H, Ouchi M. Self-compacting concrete. Development, present use and future. In: Proceedings of First International Rilem Symposium on Self-compacting Concrete. Stockholm: Rilem publications, SARL; 1999. p. 3–14.
- Bartos PJM, Grauers M. Self-compacting concrete. Concrete. 1999;33:9–14.
- Ho DWS, Sheinn AMM, Ng CC, et al. The use of quarry dust for SCC applications. Cem Concr Res. 2002;32:505–511.10.1016/S0008-8846(01)00726-8
- Zhu W, Gibbs JC. Use of different limestone and chalk powders in self-compacting concrete. Cem Concr Res. 2005;35:1457–1462.10.1016/j.cemconres.2004.07.001
- Care S, Linder R, Baroghel Bouny V, et al. Effect of mineral additions on the concrete use properties – experience plan and static analysis. LCPC, Ouvrages d’art OA 33. Tunisie, France: Février; 2002.
- Detwiler RJ, Tennis P. The use of limestone in Portland cement: a state of the art review, RP 118. Skokie (IL): Portland cement association; 1996. 39 p.
- Cyr M, Lawrence P, Ringot E. Efficiency of mineral admixtures in mortars, quantification of physical and chemical effects of fine admixtures in relation with compressive strength. Cem Concr Res. 2006;36:264–277.10.1016/j.cemconres.2005.07.001
- Achour T, Lecomte A, Ouezdou MB, et al. Contribution of the fillers limestones to the paste-aggregate bond: Tunisian examples. Mater Struct. 2008;41:815–830.10.1617/s11527-007-9287-0
- Liao KY, Chang PK, Peng YN, et al. A study on characteristics of interfacial transition zone in concrete. Cem Concr Res. 2004;34:977–989.10.1016/j.cemconres.2003.11.019
- Gao JM, Qian CX, Liu HF, et al. ITZ microstructure of concrete containing GGBS. Cem Concr Res. 2005;35:1299–1304.10.1016/j.cemconres.2004.06.042
- Bedday A, Added M. Using crushed limestone sand in the hydraulic concrete. Annales de l’Equipement. 2003;XIII(2):35–61.
- Bosiljkov VB. SCC mixes with poorly graded aggregate and high volume of limestone filler. Cem Concr Res. 2003;33:1279–1286.10.1016/S0008-8846(03)00013-9
- Al-Harthy AS, Halim MA, Taha R, et al. The properties of concrete made with fine dune sand. Constr Build Mater. 2007;21:1803–1808.10.1016/j.conbuildmat.2006.05.053
- Bederina M, Marmoret L, Mezreb K, et al. Effect of the addition of wood shavings on thermal conductivity of sand concretes: experimental study and modelling. Constr Build Mater. 2007;21:662–668.10.1016/j.conbuildmat.2005.12.008
- Bederina M, Laidoudi B, Goullieux A, et al. Effect of the treatment of wood shavings on the physico-mechanical characteristics of wood sand concretes. Constr Build Mater. 2009;23:1311–1315.10.1016/j.conbuildmat.2008.07.029
- Guettala S, Mezghiche B. Compressive strength and hydration with age of cement pastes containing dune sand powder. Constr Build Mater. 2011;25:1263–1269.10.1016/j.conbuildmat.2010.09.026
- Adekunle Saheed Kolawole, Ahmad Shamshad, Maslehuddin M. The effect of aggregate packing on the performance of SCC using dune sand. Proceedings of the Fifth North American Conference on the Design and Use of Self-Consolidating Concrete; May 12–15; 2013; Chicago (IL).
- Zeghichi L, Benghazi Z, Baali L. Comparative study of self-compacting concrete with manufactured and dune sand. J Civ Eng Archit. 2012;6:1429–1434.
- Belferrag A, Kriker A, Khenfer ME. Improvement of the compressive strength of mortar in the arid climates by valorization of dune sand and pneumatic waste metal fibers. Constr Build Mater. 2013;40:847–853.10.1016/j.conbuildmat.2012.11.079
- Yusuf AY, Olawumi BA. Comparative study on strength properties of concrete made with river sand and dune sand as fine aggregate. IOSR J Mech Civil Eng (IOSR-JMCE). 2015Jul–Aug(4);12:71–75. Version VII.
- De Larrard F, Belloc A. The influence of the aggregate on the compressive strength of concretes. Bulletin de liaison des Laboratoires des Ponts et Chaussées, n° 219 ; 1999Janvier–Février. p. 41–52.
- Lecomte A, De Larrard F, Mechling JM. Compressive strength of hydraulic concretes to the unoptimised granular skeleton. Bulletin LPC n° 234. 2001:89–105.
- Rmili A. Study of the formulation and behavior of self-compacting concretes: incorporation crushed sand and desert sand [ Thèse de Doctorat de l’Ecole Nationale d’Ingénieurs de Tunis]. Tunisie; 2010.
- Rmili A, Ben Ouezdou M. Valorization of the crushed sand and of the desert sand in the composition of the self compacting concrete. MATEC Web of Conferences 2, 01001, published by EDP Sciences; 2012; Rabat, Morocco. p. 1–9.
- Rmili A, Ben Ouezdou M, Added M, et al. Incorporation of crushed sands and Tunisian desert sands in the composition of self compacting concretes. Part I: Study of formulation. Int J Concr Struct Mater. 2009;3:3–9.
- Rmili A, Ben Ouezdou M, Added M, et al. Incorporation of crushed sands and Tunisian desert sands in the composition of self compacting concretes. Part II: SCC fresh and hardened states characteristics. Int J Concr Struct Mater. 2009;3:11–14.
- Bouziani T. Assessment of fresh properties and compressive strength of self-compacting concrete made with different sand types by mixture design modelling approach. Constr Build Mater. 2013;49:308–314.10.1016/j.conbuildmat.2013.08.039
- Benchaa B, Kadri EH, Azzouz L, et al. Properties of self-compacting mortar made with various types of sand. Cem Concr Compos. 2012;34:1167–1173.
- Bogue RH. Chemistry of Portland cement. 2nd ed. New York (NY): Reinhold Publishing Corp; 1955. p. 790.
- Lédée V, De Larrard F, Sedran T, et al. Compactness test of granular fractions at the shaking table. Test method n° 61. Paris: LCPC; 2004. p. 13.
- NF EN 12350-8. Essai pour béton frais – Partie 8: béton auto-plaçant – Essai d’étalement au cône d’Abrams [Test for fresh concrete - Part 8: self-compacting concrete - slump flow test]. France; 2010 November.
- NF EN 12350-10. Essai pour béton frais - Partie 10: béton auto-plaçant – Essai à la boîte en L [Test for fresh concrete - Part 10: self-compacting concrete - L-box test]. France; 2010 November.
- NF EN 12350-11. Essai pour béton frais – Partie 11: béton auto-plaçant – Essai de stabilité au tamis [Test for fresh concrete - Part 11: self-compacting concrete - sieve stability test]. France; 2010 November.
- NF EN 12390-3. Essais pour béton durci – Partie 3: résistance à la compression des éprouvettes [Tests for hardened concrete - Part 3: compressive strength of the specimens]. France; 2012 April.
- NF EN 12390-5. Essais pour béton durci - Partie 5: résistance à la flexion sur éprouvettes [Tests for hardened concrete - Part 5: flexural strength of the specimens]. France; 2012 April.
- Mezghiche B. Laboratory testing of construction materials. Algérie: Publication Universitaire Biskra; 2005. p. 120.
- Oh SG, Nogushi T, Tomosawa F. Toward mix design for rheology of self-compacting concrete. In: Proceedings of the First International RILEM Symposium on Self-Compacting Concrete; 1999; Stockholm. p. 361–372.
- Bui VK, Montgomery D. Mixture proportioning method for self-compacting high performance concrete with minimum paste volume. In: Proceedings of the First International RILEM Symposium on Self-Compacting Concrete; 1999; Stockholm. p. 373–384.
- Pettersson Ö, Billberg P, Van BK. A model for self-compacting concrete. In: Proceedings 32 of RILEM International Conference on Production methods and workability of concrete; 3–5 Jun; 1996; Scotland. p. 483–492.
- Su N, Hsu KC, Chai HW. A simple mix design method for self-compacting concrete. Cem Concr Res. 2001;31:1799–1807.10.1016/S0008-8846(01)00566-X
- Brouwers HJH, Radix HJ. Self-compacting concrete: theoretical and experimental study. Cem Concr Res. 2007;29:1–12.
- Yahia A, Tanimura M, Shimoyama Y. Rheological properties of highly flowable mortar containing limestone filler-effect of powder content and W/C ratio. Cem Concr Res. 2005;35:532–539.
- Farran J, Javelas R, Maso JC, et al. Study of the existing transition aureole between the aggregates of a mortar and the mass of paste cement hydrated. Colloque International, Liaison de Contact dans les Matériaux Composites Utilisés en Génie Civil ; vol. I; Novembre; Toulouse; 1972. p. 60–76.