Amelioration physical and chemical parameters of marl miocene doped with the pozzolan

Laila Mesrar; Ahmed Banamar; Raouf Jabrane

doi:10.1051/matecconf/201712006004

All issues

Volume 120 (2017)

MATEC Web Conf., 120 (2017) 06004

References

Open Access

Issue		MATEC Web Conf. Volume 120, 2017 International Conference on Advances in Sustainable Construction Materials & Civil Engineering Systems (ASCMCES-17)


Article Number		06004
Number of page(s)		10
Section		Geotechnical and Geo-environmental
DOI		https://doi.org/10.1051/matecconf/201712006004
Published online		09 August 2017

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[1] L. Mesrar, and R. Jabrane. Characterization of Clays of the Sillon South Rif (Morocco), Clay Research, Vol. 33, No. 2, p 65–73 (2016). [Google Scholar]

[2] L. Mesrar, O. El Aroussi, M. Lakrim, A. Lahrach, A. Chaouni, and R. Jabrane, Technological valorisation of the Miocene clay in the region of Fez (Morocco): Characterisation and exploitation possibilities. PESD, VOL. 7, no.1, p 311–317(2013). [Google Scholar]

[3] F. El Fgaier, Z. Lafhaj, C. Chapiseau. Use of clay bricks incorporating treated river sediments in a demonstrative building: case study. Constr. Build. Mater, no 48, p 160–165 (2013). [CrossRef] [Google Scholar]

[4] C. Fiori, B. Fabbri, G. Donati, I. Venturi. Mineralogical composition of the clay bodies, Appl. Clay Sci, 4, p 461–473 (1989). [CrossRef] [Google Scholar]

[5] M. Bondi. Clay materials for ceramic tiles from the Sassuolo District Northern Apennines, Italy. Geology, composition and technological properties, Appl. Clay Sci, 15, p 337–366 (1999). [Google Scholar]

[6] L. Mesrar, M. Akdim, M. Lakrim, I. Akhrif, and R. Jabrane. The physico-Mechanical characteristics of the clays in and after doping with metal oxide Al₂O₃ in the region of fez (Morocco). PESD, vol. 9, no. 1, p 103–110 (2015). [Google Scholar]

[7] L. Mesrar. Caractérisation chimique, mineralogique, technologique nanotechnologique des marnes du sillon sud riffain: Etude et valorisation. Thèse de Doctorat, soutenu à l’université de Fez (Maroc), p 200 (2013). [Google Scholar]

[8] A. Baccour, A. Zghal, M. Medhioub, and T. Mhiri. Caractérisation Physicochimique et mécanique de matériaux céramiques obtenus à partir des argiles Tunisiennes, Verres, Céramiques ∕ Composites, Vol.1. N°2, p 25–33 (2011). [EDP Sciences] [Google Scholar]

[9] C.A Jouenne. Traité de céramiques et de matériaux minéraux. Ed. Septima, Paris, p 620 (1984). [Google Scholar]

[10] M.J. Trimdade. Transformations of calcareous rich clays with firing: a comparative study between calcite and dolomite, Appl. Clay Sci. 42, p 345–355 (2009). [Google Scholar]

[11] M. El ouahabi. Valorisation industrielle et artisanale des argiles du Maroc. Thèse de Doctorat, soutenu à l’université de liège, p 202 (2013). [Google Scholar]

[12] S. Boussen, D. Sghaier, F. Chaabani, B. Jamoussi, A. Bennour. Characteristics and industrial application of the Lower Cretaceous clay deposits (Bouhedma Formation), Southeast Tunisia: Potential use for the manufacturing of ceramic tiles and bricks. Appl. Clay Sci. 123, p 210–221 (2016). [CrossRef] [Google Scholar]