A. Benyoub and L. Sable-siliceux-en-algérie, Portail Algérien des énergies renouvelables, Algérie, 2011.

M. L. Mechri, S. Chichi, N. Mahdadi, and S. Beddiaf, Diagnosis of the heating effect on the electrical resistivity of Ouargla (Algeria) dunes sand using XRD patterns and FTIR spectra, J. Afr. Earth Sci, vol.125, pp.18-26, 2017.

L. Zeghichi, Z. Benghazi, and L. Baali, The effect of the kind of sands and additions on the mechanical behavior of S.C.C, Phys Procedia, vol.55, pp.485-492, 2014.

Y. Abadou, R. Mittiche-kettab, and A. Ghrieb, Ceramic waste influence on dune sand mortar performance, Constr. Build. Mater, vol.125, pp.703-713, 2016.

K. Arroudj, M. Ould-ahme, M. L. Lanez, and M. N. Oudjit, Caractérisation des mortiers à base des fines du quartz, 8 eme séminaire technique de Lafarge, 2011.

H. Meradi, L. Atouib, L. Bahloula, K. Boubendiraa, A. Bouazdiaa et al., Characterization by thermal analysis of natural kieselguhr and sand for industrial application, Energy Procedia, vol.74, pp.1282-1288, 2015.

S. Platias, K. I. Vatalis, and G. Charalampides, Suitability of quartz sands for different industrial applications, Procedia Econ. Financ, vol.14, pp.491-498, 2014.

S. E. , A. B. Khairul, A. R. Sheikh, O. F. Radzali, and B. Takahashi-phat, Comparison of silica sand properties from Kandalprovince, Cambodia and Tapah Perak, Malaysia, and characterization of soda lime silicate glass produced from Cambodian silica sand, Adv, Mater. Res, vol.858, pp.248-253, 2014.

J. M. Navarro, Características de las materias primas para fusión de diferentes tipos de vidrios, Bol. Soc. Esp. Ceram. Vidr, vol.28, pp.449-459, 1989.

E. Meechoowas, U. Pantulap, and T. , Investigation of the properties of Soda-lime Silicate Glass Doped with TiO 2, Adv. Mater. Res, vol.979, pp.128-131, 2014.

B. Mirhadi and B. Mehdikhani, Effect of batch melting temperature and raw materials on iron Redox state in sodium silicate glasses, J. Korean Ceram. Soc, vol.48, pp.117-120, 2011.

J. Suba and D. Styriakova, Iron minerals removal from different quartz sands, Procedia Earth Planet. Sci, vol.15, pp.849-854, 2015.

I. Styriakova, A. Bekenyiova, D. Styriakova, K. Jablonovska, and I. Styriak, Second pilot-plant bioleaching verification of the iron removal from quartz sands, Procedia Earth Planet. Sci, vol.15, pp.861-865, 2015.

N. Ay and E. Arica, Refining Istanbul's Silica Sand, Am. Ceram. Soc. Bull, vol.79, pp.89-91, 2000.

Y. Kowada, H. Adachi, M. Tatsumisago, and T. Minami, Electronic states of transition metal ions in silicate glasses, J. Non Cryst Solids, vol.193, pp.316-320, 1995.

R. Gwinn and P. C. Hess, Iron and titanium solution properties in peraluminous and peralkaline rhyolitic liquids, Contrib. Mineral. Petrol, vol.101, pp.326-338, 1989.

J. E. Dickinson and P. C. Hess, Rutile solubility and titanium coordination in silicate melts Geo-chimica and Cosmos-chimica Acta, vol.49, pp.2289-2296, 1985.

J. Zarzycki, Les verres et l'état vitreux, 1982.

C. Fredericci, H. N. Yoshimura, A. L. Molisani, and H. Fellegara, Effect of TiO 2 addition on the chemical durability of Bi 2 O 3-SiO 2-ZnO-B 2 O 3 glass system, J. Non Cryst Solids, vol.354, pp.4777-4785, 2008.

M. Pouget, Les relations sol-végétation dans les steppes SudAlgérois, 1982.

M. C. Vitorge, Durabilité chimique des verres, 1992.

T. Tomohiro, T. Yoshihiro, K. Yoshikazu, and O. Kiyoshi, Preparation and properties of CaO-MgO-Al 2 O 3-SiO 2 glass ceramics from Kaolin clay refining waste (Kira) and dolomite, Ceram Int, vol.30, issue.6, pp.983-989, 2004.

J. Grolier, A. Fernandez, M. Hucher, and J. Riss, Les propriétés physiques des roches: Théories et modèles, 1991.

G. P. Padmakumar, K. Srinivas, K. V. Uday, K. R. Iyer, K. P. Pathak et al., Characterization of aeolian sands from Indian desert, vol.38, pp.139-140, 2012.

P. Vangala and M. L. Gali, Effect of particle size of sand and surface asperities of reinforcement on their interface shear behaviour, Geotext. Geomembr, vol.44, pp.254-268, 2016.

N. Bouzidi, S. Aissou, N. Concha-lozano, P. Gaudon, G. Janin et al., Effect of chemico-mineralogical composition on color of natural and calcined kaolins, Color Res. Appl, vol.39, pp.499-505, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01195087

H. Scholze, Structure and Properties, 1991.

M. Kumar, A. Uniyal, A. P. Chauhan, and S. P. Singh, Optical absorption and fluorescent behaviour of titanium ions in silicate glasses, Bull. Mater. Sci, vol.26, issue.3, pp.335-341, 2003.

F. H. El-batal, UV-visible, infrared, Raman and ESR spectra of gamma irradiated TiO 2-doped soda lime phosphate glasses, Indian J. Pure Appl. Phys, vol.47, pp.631-642, 2009.

L. Rus, S. Rada, V. Rednic, E. Culea, M. Rada et al., Structural and optical properties of the lead based glasses containing iron (III) oxide, J. Non Cryst Solids, vol.402, pp.111-115, 2014.

R. K. Kukkadapu, H. Li, G. L. Smith, J. D. Crum, J. S. Jeoung et al., Mossbauer and optical spectroscopic study of temperature and redox effects on iron local environments in Fe-doped (0.5 mol% Fe 2 O 3 ) 18 Na 2 O-75 SiO 2, J. Non Cryst Solids, vol.317, pp.301-318, 2003.

F. H. El-batal, E. M. Khalil, Y. M. Hamdy, H. M. Zidan, M. S. Aziz et al., FTIR spectral analysis of corrosion mechanisms in soda lime silica glasses doped with transition metal oxides, Silicon, vol.2, pp.41-47, 2010.

B. Mysen and P. Richet, Silicate Glass and Melts-Properties and Structure, 2005.