AASHTO T99 (1982) Standard Method of Test for Moisture-Density Relations of Soils Using a 2.5-kg (5.5-lb) Rammer and a 305-mm (12-in.) Drop. Standard Specifications for Highway Materials and Methods of Sampling and Testing: Part II. American Association of State Highway and Transportation Officials, Washington, DC, USA.
Abajo M.F. (2000) Manual sobre fabricación de baldosas, tejas y ladrillos. Ed. Beralmar S.A., Barcelona, Spain.
Abd El Aal A. (2015) Engineering assessment and applications of clays, case study on Middle Cretaceous (Wasia Formation), Riyadh, KSA. Journal of Material Sciences & Engineering, 5, 1.
Aras A. & Kiliç S. (2017) The mineralogy and firing behaviour of pottery clays of the Lake Van region, eastern Turkey. Clay Minerals, 52, 453-468.
Baccour H., Medhioub M., Jamoussi F. & Mhiri T. (2009) Influence of firing temperature on the ceramic properties of Triassic clays from Tunisia. Journal of Materials Processing Technology, 209, 2812-2817.
Baccour H., Medhioub M., Jamoussi F., Mhiri T. & Daoud A. (2008) Mineralogical evaluation and industrial applications of the Triassic clay deposits, southern Tunisia. Materials Characterization, 59, 1613-1622.
Baghdad A., Bouazi R., Bouftouha Y., Bouabsa L. & Fagel N. (2017) Mineralogy characterization of Neogene clay areas from the Jijel basin for ceramic purposes (NE Algeria-Africa). Applied Clay Science, 136, 176-183.
Benhammou A., Tanouti B., Nibou L., Yaacoubi A. & Bonnet J.P. (2009) Mineralogical and physicochemical investigation of Mg-smectite from Jbel Ghassoul, Morocco. Clays and Clay Minerals, 57, 264-270.
Bennour A., Mahmoudi S., Srasra E., Boussen S. & Htira N. (2015) Composition, firing behavior and ceramic properties of the Sejnène clays (northwest Tunisia). Applied Clay Science, 115, 30-38.
Boski T., Pessoa J., Pedro P., Thorez J., Dias J.M.A. & Hall I.R. (1998) Factors governing abundance of hydrolyzable amino acids in the sediments from the N.W. European Continental Margin (47-50°N). Progress in Oceanography, 42, 145-164.
Bouillin J.P., Kornprobst J. & Raoult J.F. (1977) Données préliminaires sur le complexe volcano-sédimentaire de Rekkada Metletine (ex-Texenna), en Petite Kabylie (Algérie). Bulletin de la Société géologique de France, 4, 805-813.
Boussen S., Sghaier D., Chaabani F., Jamoussi B. & Bennour A. (2016) Characterization and industrial application of the Lower Cretaceous clay deposits (Bouhedma Formation), southeast Tunisia: potential use for the manufacturing of ceramic tiles and bricks. Applied Clay Science, 123, 210-221.
Brindley G.W. & Nakahira M. (1959) The kaolinite-mullite reaction series: II, metakaolin. Journal of the American Ceramic Society, 42, 314-323.
Burst J.F. (1991) The application of clay minerals in ceramics. Applied Clay Science, 5, 421-443.
Carretero M.I. (2002) Clay minerals and their beneficial effects upon human health: a review. Applied Clay Science, 21, 155-163.
Casagrande A. (1948) Classification and identification of soils. Transactions of the American Society of Civil Engineers, 113, 901-930.
Celik H. (2010) Technological characterization and industrial application of two Turkish clays for the ceramic industry. Applied Clay Science, 50, 245-254.
Cook H.E., Johnson P.D., Matti J.C. & Zemmels I. (1975) Methods of sample preparation and X-ray diffraction data analysis in X-ray mineralogy laboratory. Pp. 999-1007 in: Initial Reports of the Deep Sea Drilling Project, Vol. 28. Texas A & M University, Ocean Drilling Program, College Station, TX, USA.
Correia S.L., Curto K.A.S., Hotza D. & Segadães A.M. (2004a) Using statistical techniques to model the flexural strength of dried triaxial ceramic bodies. Journal of the European Ceramic Society, 24, 2813-2818.
Correia S.L., Hotza D. & Segadães A.M. (2004b) Simultaneous optimization of linear firing shrinkage and water absorption of triaxial ceramic bodies using experiments design. Ceramics International, 30, 917-922.
Cultrone G., Sebastian E., Elerk K., De la Torre M.J., Cazalla O. & Rodriguez-Navarro C. (2004) Influence of mineralogy and firing temperature on the porosity of bricks. Journal of the European Ceramic Society, 24, 547-564.
Daoudi L., Elboudour Elidrissi H., Saadi L., Albizane A., Bennazha J., Waqif M., El Ouahabi M. & Fagel N. (2014) Characteristics and ceramic properties of clayey materials from Amezmiz region (Western High Atlas, Morocco). Applied Clay Science, 102, 139-147.
Dondi M., Ercolani G., Fabbri B. & Marsigli M. (1996) Chemistry of pyroxene and melilite formed during the firing of ceramic clay bodies. Pp. 210-211 in: Advances in Clay Minerals, Proceedings of the Spanish-Italian Meeting on Clay Minerals, Granada, Spain (M. Ortega-Euertas, A. Lôpez-Galindo & I. Palomo-Delgado, editors). Sociedad Espanola de Arcillas, Granada, Spain, and Gruppo Italiano dell'AIPEA, Venice, Italy.
Dondi M., Guarini G. & Raimondo M. (1999) Trends in the formation of crystalline and amorphous phases during the firing of clay bricks. Tile & Brick International, 3, 176-183.
Durand Delga M. (1955) Étude géologique de l'Ouest de la Chaine numidique. Bulletin Service de la Carte Géologique de l'Algérie, 24, 533.
Durand Delga M. (1969) Mise au point sur la structure du Nord-Est de la Berbérie. Bulletin Service de la Carte Géologique de l'Algérie, 39, 89-131.
Durand Delga M. & Magné J. (1952) Note préliminaire sur le Néogène du bas-sin de Djidjelli (Nord-Constantinois, Algérie). Société Géologique de France, 11, 225-227.
El Ouahabi M., Daoudi L., Hatert F. & Fagel N. (2015) Modified mineral phases during clay ceramic firing. Clays and Clay Minerals, 63, 404-413.
Fabbri B. & Fiori C. (1985) Clays and complementary raw materials for stoneware tiles. Mineralogica et Petrographica Acta, 29A, 535-545.
Fadil-Djenabou S., Ndjigui P.D. & Mbey J.A. (2015) Mineralogical and physicochemical characterization of Ngaye alluvial clays (northern Cameroon) and assessment of its suitability in ceramic production. Journal of Asian Ceramic Societies, 3, 50-58.
Fagel N., Thamó-Bózsó E. & Heim B. (2007) Mineralogical signatures of Lake Baikal sediments: Sources of sediment supplies through Late Quaternary. Sedimentary Geology, 194, 37-59.
Farmer V.C. (1974) The layer silicates. Pp. 331-365 in: The Infrared Spectra of Minerals (V.C. Farmer, editor). Mineralogical Society of Great Britain and Ireland, Twickenham, UK.
Farmer V.C. (2000) Transverse and longitudinal crystal modes associated with OH stretching vibrations in single crystals of kaolinite and dickite. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 56, 927-930.
Fisher P. (1984) Some comments on the color of fired clays. Ziegel Industrie International, 37, 475-483.
Gee G.W. & Bauder J.W. (1986) Particle-size analysis. Pp.383-411 in: Methods of Soil Analysis, Part 1, 2nd ed. Agronomy Monograph 9 (A. Klute, editor). ASA and SSSA, Madison, WI, USA.
Geological Survey of Algeria and Mining Control Agency (1999) Booklet of Useful Substances Non-Metallics of Algeria. Geological Service of Algeria, Boumerdès, Algeria, 59 pp.
Holtz R.D. & Kovacs W.D. (1981) An Introduction to Geotechnical Engineering. Prentice-Hall, Upper Saddle River, NJ, USA.
ISO 10545-3 (1995) Ceramic Tiles. Part 3. Determination of Water Absorption, Apparent Porosity, Apparent Relative Density and Bulk Density, 2nd ed., including technical corrigendum. International Organization for Standardization, Geneva, Switzerland.
ISO 10545-4 (2004) Ceramic Tiles. Part 4. Determination of Modulus of Rupture and Breaking Strength, 2nd ed., including technical corrigendum. International Organization for Standardization, Geneva, Switzerland.
ISO 13006 (1998) Ceramic Tiles. Definition, Classification, Characteristics and Marking, 2nd ed., including technical corrigendum. International Organization for Standardization, Geneva, Switzerland.
Konta J. (1980) Properties of Ceramic Raw Materials. Pp. 1-32 in: Ceramic Monographs-Handbook of Ceramics. Verlag Schmid, Freiburg im Breisgau, Germany.
Konta J. (1995) Clay and man: clay raw materials in the service of man. Applied Clay Science, 10, 275-335.
Kreimeyer R. (1987) Some notes on the firing colour of clay bricks. Applied Clay Science, 2, 175-183.
Lahondère J.C., Feiberg H. & Hac B.U. (1979) Datation des grès numidiens d'Algérie orientale: conséquences structurales. Comptes Rendus de l'Académie des Sciences de France, 4, 383-386.
Lee V.-G. & Yeh T.-H. (2008) Sintering effects on the development of mechanical properties of fired clay ceramics. Materials Science and Engineering: A, 485(1-2), 5-13.
LCPC (1987) Limites d'Atterberg, limite de liquidité, limite de plasticité, méthode d'essai LPC, n°19. Publication LCPC, Paris, France, 26 pp.
Madejová J. (2003) FTIR techniques in clay mineral studies. Vibrational Spectroscopy, 31, 1-10.
Mahmoudi S., Srasra E. & Zargouni F. (2008) The use of Tunisian Barremian clay in the traditional ceramic industry: optimization of ceramic properties. Applied Clay Science, 42, 125-129.
Manukaji John U. (2013) Chemical and mechanical characterization of clay samples from Kaduna State Nigeria. International journal of Engineering Inventions, 7, 20-26.
Milheiro F.A.C., Freire M.N., Silva A.G.P. & Holanda J.N.F. (2005) Densification behaviour of a red firing Brazilian kaolinitic clay. Ceramics International, 31, 757-763.
Monteiro S.N. & Vieira C.M.F. (2004) Influence of firing temperature on the ceramic properties of clays from Campos dos Goytacazes, Brazil. Applied Clay Science, 27, 229-234.
Moore D.M. & Reynolds R.C. (1997) X-Ray Diffraction and the Identification and Analysis of Clay Minerals. Oxford University Press, New York, NY, USA, 332 pp.
Murray H.H. (2007) Applied Clay Mineralogy. Developments in Clay Science, Vol. 2. Elsevier, Amsterdam, The Netherlands, 188 pp.
NF P 94-051 (1993) Soils: Investigation and Testing. Determination of Atterberg's Limits. Liquid Limit Test using Cassagrande Apparatus. Plastic Limit Test on Rolled Thread. 1st ed., 93-03. French Association of Normalization (AFNOR), Paris, France.
NF P 94-054 (1991) Soils: Investigation and Testing. Determination of Particle Density. Pycnometer Method. 1st ed., 91-10. French Association of Normalization (AFNOR), Paris, France.
NF P 94-056 (1996) Soils: Investigation and Testing. Granulometric analysis: Dry sieving method after washing, 1st ed., 96-03-F. French Association of Normalization (AFNOR), Paris, France.
NF P 94-057 (1992) Soils: Investigation and Testing. Granulometric Analysis: Hydrometer Method, 1st ed., 92-05. French Association of Normalization (AFNOR), Paris, France.
Ngun B.K., Hasmaliza M., Shamsul K.S., Kiyoshi O. & Zainal A.A. (2011) Some ceramic properties of clays from central Cambodia. Applied Clay Science, 53, 33-41.
Njoya D., Hajjaji M. & Njopwouo D. (2012) Effects of some processing factors on technical properties of a clay-based ceramic material. Applied Clay Science, 65-66, 106-113.
Okada K. & Otsuka N. (1986) Characterization of spinel phase from SiO2-Al2O3 xerogels and the formation process of mullite. Journal of the American Ceramic Society, 69, 652-656.
Peters T. & Iberg R. (1978) Mineralogical changes during firing of calcium-rich brick clays. Ceramic Bulletin, 57, 503-509.
Reeves G.M., Sims I. & Cripps J.C. (2006) Clay Materials Used in Construction. Geological Society, London, UK, 525 pp.
Rivi A. & Ries B. (1997) Single-line dry grinding technology. Ceramic World 24, 132-141.
Semiz B. (2017) Characteristics of clay-rich raw materials for ceramic applications in Denizli region (western Anatolia). Applied Clay Science, 137, 83-93.
Shepard F.P. (1954) Nomenclature based on sand-silt-clay ratios. Journal of Sedimentary Petrology, 24, 151-158.
Velde B. & Meunier A. (2008) The Origin of Clay Minerals in Soils and Weathered Rocks. Springer, Berlin, Germany, 406 pp.
Vila J.M. (1978) Carte structurale au 1/500 000 de la chaine alpine d'Algérie orientale et des confins algéro-tunisiens. Avec le concours du Centre national de Recherche Scientifique et du Bureau d'Etudes Industrielles et de Coopération de l'Institut Français du Pétrole, Paris, France (n.p.).
Vila J.M. (1980) La chaîne alpine d'Algérie orientale et des confins algéro-tunisien. PhD thesis, University of Paris VI, Paris, France, 663 pp.
Wentworth C.K. (1922) A scale of grade and class terms for clastic-sediments. Journal of Geology, 30, 377-392.
Winkler H.G.F. (1954) Bedeutung der Korngrössenverteilung und des Mineral-bestandes von Tonen für die Herstellung grobkeramischer Erzeugnisse. Berichte der Deutschen Keramischen Gesellschaft, 31, 337-343.