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Authors

Salima Rezig Laboratoire de Recherche en Génie Civil, Université Mohamed Khider ‐Biskra/Algérie. BP 145 RP 07000 Biskra, Algérie Author
Ahmed Bouaziz Laboratoire de Recherche en Génie Civil, Université Mohamed Khider ‐Biskra/Algérie. BP 145 RP 07000 Biskra, Algérie Author
Abdallah Zatar Laboratoire de Recherche en Génie Civil, Université Mohamed Khider ‐Biskra/Algérie. BP 145 RP 07000 Biskra, Algérie Author

DOI:

https://doi.org/10.69717/jaest.v3.i1.47

Keywords:

Sand concrete, Optimal Formulation, Mechanical strength, Mass loss, Date palm fibers

Abstract

The main objective of this study is to propose an optimal formulation of sand concrete.The experimental approach consists in fixing the cement dosage at 350 kg / m3 and, in the firstphase, to investigate the optimum proportions of each constituent (limestone filler, silica fume,water and adjuvant). The second phase of this study was reserved for the effect of date palm fiberson the optimal formulation deduced from the experimental program of the first phase. The datepalm fiber mass rates studied are: 0.5%, 1%, 1.5% and 2%. The results obtained from the firstphase made it possible to fix the desired optimal composition equivalent to a unit volume of sandconcrete (1 m3 ). The cement dosage was maintained at 350 kg, dune sand, alluvial sand, finelimestone, silica fume, water and superplasticizer were optimized respectively as follows: 423.98kg; 980.34 kg; 165 kg; 35 kg; 210 kg and 2%.The results obtained from the second phase showdifferent tendencies in compression than in indirect traction. Indeed, a reduction in resistance wasrecorded in compression as a function of the increase in the rate of the reinforcement of datepalm fibers. This progressive decrease can reach 27% when the rate of reinforcement is equal to2%. On the other hand, a fluctuation in the results of traction in the range of 5 to 6 MPa wasrecorded. The maximum tensile strength was reached at a date palm fiber content of 1%. Theresults obtained from the mass loss measurements clearly showed that the increase in the fiberreinforcement rate induces a decrease in the mass loss estimated at 23.5 %.

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Published

2017-06-27

Issue

Section

Research Paper

How to Cite

Experimental investigation on the optimal formulation of dune sand concrete reinforced with date palm fibers. (2017). Journal of Applied Engineering Science & Technology, 3(1), 6. https://doi.org/10.69717/jaest.v3.i1.47

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