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Comportement thermique des géopolymères obtenus à partir d'une argile kaolinite( Télécharger le fichier original )par Leonel TCHADJIE NOUMBISSIE Université de Yaoundé 1 - Master en chimie 2012 |
REFÉRENCES BIBLIOGRAPHIQUES- Akono M. A., (2009). Etude géotechnique des matériaux alluvionnaires argileux de Nkolondom (Yaoundé) - comparaison de leurs produits de cuisson obtenus par la méthode traditionnelle et par géopolymérisation. Mémoire de D.E.A, Faculté des Sciences, Université de Yaoundé I, 81 p. - Alshaaer M. and Tair A. A., (2009). Proceedings of the 11th International Conference on Non-conventional Materials and Technologies: Production of low cost building materials using local resources for possible use in disaster situation. 6-9 September 2009, Bath (United Kingdom), 8 p. - American Society for Testing Materials (ASTM), (1979). Standard test methods for apparent porosity, water absorption, apparent specific gravity, and bulk density of burned refractory brick by boiling water. ASTM C 20 -74, 3p. - Barbosa F. F. V. and Mackenzie J. D. K., (2003). Thermal behaviour of inorganic geopolymers and composites derived from polysialate. Materials Research Bulletin, 38, 319-331. - Bich C., (2005). « Contribution à l'étude de l'activation thermique du kaolin: Evolution de la structure cristallographique et activité pouzzolanique », Thèse de doctorat Ph.D., Institut National des Sciences Appliquées de Lyon, Spécialité : Génie civil, 255 p. - Bourlon A., (2010). « Physico-chimie et rhéologie de géopolymères frais pour la cimentation des puits pétroliers », Thèse de Doctorat, Spécialité Physique et Chimie des Matériaux, Université Pierre et Marie Curie, 203 p. - Bouterin C., Davidovits J., (2003). Réticulation géopolymérique (LTGS) et matériaux de construction. Géopolymère, 1, 79-88. - Buchwald A., Vicent M., Kriegel R., Kaps C., Monzo M., Barba A., (2009). Geopolymeric binders with different fine fillers - phase transformations at high temperatures. Applied Clay Science, 45, 190-195. - Cheng T. W. and Chiu J. P., (2003). Fire-resistant geopolymer produced by granulated blast furnace slag. Minerals Engineering, 16, 205-210. - Davidovits J., (1991). Geopolymers: Inorganic polymeric new materials. Journal of Thermal Analysis, 37, 1633-1656. - Davidovits J., (1994). First international conference of alkaline cements and concretes: Properties of geopolymer cements. Kiev (Ukraine), 131-149. - Davidovits J., (2002). Geopolymer Conference: 30 years of successes and failures in geopolymer applications. Market trends and potential breakthroughs. October 28-29, Melbourne (Australia), 16 p. - Davidovits J., (2011). « Geopolymer Chemistry and Applications », 3e éd., Institut Géopolymère, France, p. 3-32. 47
- De Silva P., Sagoe-Crenstil K. and Sirivivatnanon V., (2007). Kinetic of géopolymérisation: role of Al2O3 and SiO2. Cement and Concrete Research, 37, 512- 518. - Delatte J. et Facy G., (1993). Des bétons antiques aux géopolymères. Arts et Métiers Magazine, 180, 8-16 - Duxson P., (2006). « The structure and thermal evolution of metakaolin geopolymers», Thèse de Doctotat Ph.D., Department of chemical and biomolecular engineering, The University of Melbourne, 355 p. - Duxson P., Lukey G. C. and Van Deventer J. S. J., (2006). Thermal evolution of metakaolin geopolymers. Journal of Non-crystalline Solids, 352, 5541-5555. - Elimbi A., (1991). Etude dilatométrique du comportement thermique des argiles kaoliniques de Bomkoul (Cameroun). Thèse de doctorat 3e cycle, Faculté des Sciences, Université de Yaoundé I, 162 p. - Elimbi A., Tchakoute K. H. and Njopwouo D., (2011). Effects of calcination temperature of kaolinite clays on the properties of geopolymer cements. Construction and Building Materials, 25, 2805-2812. - European Norm (EN), (2004). Methods of testing cement: part I determination of strength. EN 191-1, 19 p. - Fernandez J. A., Monzo M., Vicent M., Barba A. and Palomo A., (2008). Alkaline activation of metakaolin-fly ash mixtures: Obtain of Zeoceramics and Zeocements. Microporous and Mesoporous Materials, 108, 41-49. - Fernandez-J. A. and Palomo A., (2005). Composition and microstructure of alkali activated fly ash binder: effect of the activator. Cement and Concrete Research, 35, 1984-1992. - Hermann E., Kunze c., Gatzweiler R., Kiebig G. and Davidovits J., (1999). Solidification de différents résidus radioactifs avec le géopolymère pour une stabilité à long-terme. Géopolymère 99 Proceedings, 1-15. - Institut des Géopolymères. Articles sur les géopolymères (consulté le 10.01.2012) [en ligne]. http: // www.geolypolymer.org/fr/ Article sur les géopolymère - Kakali G., Perraki T., Tsivilis S. and Badogiannis E., (2001). Thermal treatment of kaolin: the effect of mineralogy on the pozzolanic activity. Applied Clay Science, 20, 73-80. - Khoury H., Salhah Y. A., Dabsheh I. A, Slaty F., Alshaaer M., Rahier H., Esaifan M. and Wastiels J., (2011). Geopolymer products from Jordan for sustainability of the environment. Advances in Materials Science for Environmental and Nuclear Technology II, 227, 289-300. - Komnitsas K. and Zaharaki D., (2007). Geopolymerisation: a review and prospects for minerals industry. Minerals Engineering, 20, 1261-1277. - Lemougna N. P., (2008). Réticulation géopolymérique à basse température de quelques aluminosilicates. Mémoire de D.E.A., Faculté des Sciences, Université de Yaoundé 1, 75 p. 48
- Lemougna N. P., Mackenzie D. J. K. and Melo C. U. F., (2011). Synthesis and thermal properties of inorganic polymers (geopolymer) for structural and refractory applications from volcanic ash. Ceramics International, 37, 3011-3018. - Liew Y. M., Kamarudin H., Mustafa Al Bakri A. M., Luqman M., Khairul Nizar I. and Heah C. Y., (2011). Investigating the possibility of utilization of kaolin and the potential of metakaolin to produce green cement for construction purposes. Australian Journal of Basic and Applied Sciences, 5, 441-449. - Muniz-V. M. S., Manzano-R. A., Sampieri-B. S., Ramon G-T. J., Reyes-A. J. L., Perez-B. J. J., Apatiga L. M., Zaldivar-C. A. and Amigo-B. V., (2011). The effect of temperature on the geopolymerizaion process of a metakaolin-based geopolymer. Materials Letters, 65, 995-998. - Njopwouo D., (1984). Minéralogie et physico-chimie des argiles de Bomkoul et de Balengou (Cameroun). Utilisation dans la polymérisation du styrène et dans le renforcement du caoutchouc naturel. Thèse de doctorat, Faculté des Sciences, Université de Yaoundé I, 300 p. - Njoya A., Nkoumbou C., Grosbois C., Njopwouo D., Njoya D., Courtin-Nomade A., Yvon J. and Martin F., (2006). Genesis of Mayouom kaolin deposit (Western Cameroon). Applied Clay Science, 32, 125-140. - Panias D., Giannopoulou P. I. and Perraki T., (2007). Effect of synthesis parameters on the mechanical properties of fly ash-based geopolymers. Colloids and Surfaces A: Physicochem. Eng. Aspects, 301, 246-254. - Prud'homme E., Michaud P., Joussein E., Peyratout C., Smith A. and Rossignol S., (2011). In situ inorganic foams prepared from various clays at low temperature. Applied Clay Science, 51, 15-22. - Qtaitat A. M. and Al-Trawneh N. I., (2005). Characterization of kaolinite of the Baten EL-Ghoul region/south Jordan by infrared spectroscopy. Spectrochimica Acta Part A, 61, 1519-1523. - Rahier H., Slatyi F., Aldabsheh I., Alshaaer M., Khoury H., Esaifan M. and Wastiels J., (2010). Use of local raw materials for construction purposes. Advances in Science and Technology, 69, 152-155. - Rollet A.-P. et Bouaziz R., (1972). L'analyse Thermique : l'examen des processus chimique, tome 2, GAUTHIER-VILLAS, Paris, 571p. - Rovnanik P., (2010). Effect of curing temperature on the development of hard structure of metakaolin-based geopolymer. Construction and Building Materials, 24, 1176-1183. - Sabir B. B., Wild S. and Bai J., (2001). Metakaolin and calcined clays as pozzolans for concrete. Cement and Concrete Composites, 23, 441-454. - Saikia J.B. and Parthasarathy G., (2010). Fourier transform infrared spectroscopic characterization of kaolinite from Assam and Meghalaya, Northeastern India. Journal of Modern Physics, 1, 206-210. - Sindhunata, Van Deventer J. S. J., Lukey G. C. and Xu H., (2006). Effect of curing temperature and silicate concentration on fly-ash-based geopolymerization. Industrial and Engineering Chemistry Research, 45, 3559-3568. 49
- Tchakoute K. H., Elimbi A.,Mbey A. J., Sabouang N. J. C., and Njopwouo D., (2012). The effect of adding alumina-oxide to metakaolin and volcanic ash on geopolymers products: A comparative study. Construction and Building Materials, http://dx.doi.org/10.1016 /j.conbuildmat.2012.04.023. - Van Jaarsveld J. G. S. and Van Deventer J. S. J., (1996). The potential use of geopolymeric materials to immobilise toxic metals: Part I Theory and applications. Minerals Engineering, 10, 659-669. - Van Jaarsveld J. G. S., Van Deventer J. S. J. and Lukey G. C., (2002). The effect of composition and temperature on the properties of fly ash and kaolinite-based geopolymers. Chemical Engineering Journal, 89, 63-73. - Wongpa J., Kiatttikomol K. and Jaturapitakkul C., (2006). International Conference on Pozzolan, Concrete and Geopolymer: New geopolymer from rice husk-bark ash. May 24-25, Khon Kaen (Thailand), 299-304. - Xiao Y., Zhang Z., Zhu H. and Chen Y., (2009).Geopolymerization process of alkali-metakaolinite characterized by isothermal calorimetry. Thermochimica Acta, 493, 49-54. - Xu H. and Van Deventer, J. S. J., (2000). The geopolymerisation of alumino-silicate minerals. International Journal of Mineral Processing, 59, 247-266. - Xu H. and Van Deventer, J. S. J., (2002). Microstructural characterization of geopolymers synthesized from kaolinite/stilbite mixtures using XRD, MAS-NMR, SEM/EDX, TEM/EDX, and HREM. Cement and Concrete Research, 32, 1705-1716. - Youssef I. R., El-Eswed B., Alshaaer M., Khalili F. and Rahier H., (2010). Degree of reactivity of two minerals in alkali solution using zeolitic tuff and silica sand filler. Ceramics International, doi: 10.1016/j.ceramint.2012.03.008. - Yunsheng Z., Wei S. and Zonglin L., (2010). Composition design and microstructural characterization of calcined kaolin-based geopolymer cement. Applied Clay Science, 47, 271-275. - Zaharaki D., Komnitsas K. and Perdikatsis V., (2010). Use of analytical techniques for identification of inorganic polymer gel composition. Journal of Materials Science, 45, 2715-2724. - Zeng Q., Li K., Fen-Chong T. and Dangla P., (2012). Effect of porosity on thermal expansion coefficient of cement pastes and mortars. Construction and Building Materials, 28, 468-475. 50
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