Partie I : La Bibliographie



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[42] Kalousek (1965)
[43] COPELAND et KANTRO [1969]
[44] Coussot P., Ancey C., (1999) « Rhéophysique des pâtes et des suspensions », EDP Science, ISBN : 2 - 86883 - 401 - 9.
[45] Hunter, R.J., (1993) « Particle interaction and coagulation » in Introduction to modern colloid science, Oxford Science Publications.
[46] STRUBLE L.J., (1991) « The rheology of fresh cement paste », International Symposium on « Advances in Cementitious Materials », Conference of American Ceramic Society.
[47] Myers, Drew, (1946) - Surface, interfaces, and colloids: principles and applications, Drew Myers - 2nd ed. 1999, Ref : ISBN : 0 - 471 - 33060 - 4.
[48] Legrand C., (1982) "Le béton hydraulique", Presses de l'Ecole National des Ponts et Chaussées, Paris.
[49] Longuet, Burglen, Zelwer (1974) "La phase liquide du ciment hydraté", Publication du C.E.R.I.L.H.,No219.
[50] PESCHEL G.,(1968) "The viscosity of thin water films between two quartz glass plates",Materiaux et Construction, R.I.L.E.M.
[51] PATRICK R.L., (1976) "Treatise on adhesion an adhensives", Vol.1-Marcel Dekker Inc., New-York, pp.9-68.
[52] FRIPIAT, Chaussidon et Jetly, (1971) "Chimie-physique des phénomènes de surface. Applications aux oxydes et silicates", Masson.
[53] POWERS T.-C, (1968) "The properties of fresh concrete", John Wiley, New-york (664).
[54] Hayakawa M., Matsuoka Y., Yokota K., (1995): Application of superworkable concrete in the construction of 70-story building in Japan. Second CANMET/ACI on advances in concrete technology, ACI 154-20, pp. 381-397.
[55] Nagataki S., Fujiwara H. (1995) : Self compacting property of highly flowable concrete.

Second CANMET/ACI on advances in concrete technology, ACI 154-20, pp. 301-314.


[56] Petersson Ö., Billberg P. Van B.K. (1996): A model for Self-Compacting Concrete.

International Rilem Conference on ‘Production methods and workability of concrete’. RILEM

Proceedings 32.
[57] Yurugi
[58] Miura N., Takkada N., Chikamatsu R., Sogo S. (1993) : Application of super workable

concrete to reinforces cencrete structures with difficult construction conditions. ACI SP 140,

“High performance concrete in severe environments”, Detroit, p.163-186.
[59] Khayat K. H. (1995) : Effects of anti-wahout admixtures on fresh concrete properties. ACI Materials journal, vol. 92, n°2, mars-avril, p.164-171.
[60] Okamura H., Ouchi M., "Self-Compacting Concrete. Development, present use and future", Proceedings of the First International RILEM Symposium on S-Compacting Concrete, Stockholm, Suède pp. 3-14, 1999.
[61] Ozawa K., Maekawa K., Okamura H. (1990): The high performance concrete with high filling capacity. Proceedings of the international symposium on admixtures for concrete, RILEM Barcelone, p. 51-62
[62] Turcry P., Loukili A. (2002) : Différentes approches pour la formulation associations des bétons autoplaçants : incidence sur les caractéristiques rhéologiques. FGC/AUGC/IREX

innovation et développement en génie civil et urbain - nouveaux bétons, Toulouse, 30-31, mai.


[63] Edamatsu Y., Nishida N., Ouchi M., "A rational mix-design method for self-compacting concrete considering interaction between coarse and mortar particles", Proceedings of the First International RILEM Symposium on Self- Compacting Concrete, Stockholm, Suède, pp. 309-320, 1999.
[64] Petkova V., Ivanov Y., "The use of mathematical modelling in the composition of a composite material", Cement and Concrete Research, à publier, 2005.
[65] Ozawa, K., Tangtermsirikul, S., Maekawa, K. (1992): Role of Powder Materials on the

Filling Capacity of Fresh Concrete, Proceedings of the 4th Canmet/ACI International Conference on Fly Ash, Silica Fume, Slag and Natural Pozzolans in Concrete, Supplementary

Papers, pp. 121-130.
[66] Hasni L. (1999) : Bétons autoplaçants ¨C synthèse bibliographique. Rapport n°98-004/98006 CEBTP, 46pages.
[67] Bui V.K., Montgomery D. (1999) : Mixture proportionning method for self-compacting high performance concrete with minimum paste volume. Proceedings of the first International

RILEM Symposium on Self-Compacting Concrete. Stockholm, Suède, pp. 373-384.


[68] De Larrard (2000) : Structures granulaires et formulation des bétons. Etudes et Recherches des LPC, avril, OA 34.
[69] Sedran Th. (1999) : Rhéologie et rhéométrie des bétons. Application aux bétons autonivelants. Thèse de doctorat de l’Ecole Nationale des Ponts et Chaussées. Laboratoire Central des Ponts et Chaussées.
[70] Assié S. (2004) : Durabilité des bétons autoplaçants. Thèse de doctorat de l’Institut National des Sciences Appliquées de Toulouse.
[71] Baron J. (1982) : Le béton hydraulique. Edité par Presses de l’Ecole Nationale des Ponts et Chaussées. Chapitre 6 « la structure des suspensions deciment », p99-113.
[72] Ramachandran V.S., Malhotra V.M., Jolicoeur C., Spiratos N. (1998) : Superplasticizers:

Properties and Applications in Concrete. Minister of Public Work and Government Services,

Canada.
[73] Van Damme H. (2002) Colloidal chemo-mechanics of cement hydrates and smectite clays : cohesion. vs. swelling. Encyclopedia of Surface and Colloïd Science, 1087¨C1103.
[74] Pellenq R. J.-M., van Damme H. (2004) : Why does cement set ?: the nature of cohesion

foreces in hardened cement-base materials. MRS Bulletin, 319-323.


[75] Flatt R. J., Martys N. S., Bergström L. (2004) : La Rhéologie des Matériaux Cimentaires (The Rheology of Cementitious Materials). National Institute of Standards and Technology. Ciments, Bétons, Plâtres, Chaux, Nº 867, pp. 48-55, Juin-Juillet
[76] Li Ch.-Z., Feng N.-Q., Li Y.-D., Chen R.-J. (2004) : Effects of polyethlene oxide chains on the performance of polycarboxylate-type water-reducers. Cement and Concrete Research.
[77] Uchikawa H. (1986): Effect of blending component on hydration and structure formation, 8th International Congress on Chemistry of Cement, Rio de Janeiro, Brésil.
[78] Aïtcin P.-C., Sarkar S.L., Moranville-Regourd M., Volant M. (1987) : Retardation effect of superplasticized on different cement fraction, Cement and Concrete Research, vol.17, n°6,

p.995-997.


[79] Baussant J.-B. (1990) : Nouvelle méthode d’étude de la formation d’hydrates des ciments? Application à l’analyse de l’effet d’adjuvants organiques. Thèse de doctorat, 156, Université de Franche-Comté, 194 pages.
[80] Fernon V. (1994): Caractérisation des produits d’interaction adjuvants/hydrates du ciment. Journées techniques adjuvants, Technodes, Guerville, France, 14 pages.
[81] Fernon V., Vichot A., Le Goanvic N., Colombet P., Corazza F., Costa U. (1997) : Interaction between portland cement hydrates and polynaphtalene sulfonates. Proceedings 5th CANMET/ACI Ferraris Ch. (1999) : Measurement of the Rheological Properties of High Performance Concrete : State of the Art Report. Journal of Research of the National Institute of Standards and Technology, Volume 104, Number 5, September¨COctober.
[82] Sakai E., Daimon M., (1997): Dispersion mechanisms of alite stabilized by superplasticizers containing polyethylenoxide graft chains. Proceedings of the 5th CANMET/ACI International Conference on Superplasticizers and Other Chemical Admixtures in Concrete, SP-173, American Concrete Institute, pp. 187¨C 201.
[83] Flatt R. J., Houst Y. F. (2001): A simplified view on chemical effects perturbing the action of superplasticizers. Cement and Concrete Research, vol. 31, p. 1169¨C1176.
[84] Kim B.-G., Jiang S., Jolicoeur C., P.-C. Aïtcin (2000): The adsorption behavior of PNS

superplasticizer and its relation to fluidity of cement paste. Cement and Concrete Research,



Volume 30, Issue 6, June, Pages 887-893.
[85] Lee S. H., Kim H. J., Sakai E., Daimon M. (2003) : Effect of particle size distribution of fly ash¨Ccement system on the fluidity of cement pastes. Cement and Concrete Research, Volume 33, Issue 5, May, Pages 763-768.


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