Dossier: Complex Colloidal Systems
Open Access
Oil & Gas Science and Technology - Rev. IFP
Volume 64, Number 5, September-October 2009
Dossier: Complex Colloidal Systems
Page(s) 583 - 595
Published online 10 October 2009
  • Ohama Y. (1998) Polymer-based admixtures, Cement Concrete Comp. 20, 189-212. [CrossRef]
  • Audibert A., Noïk C., Rivereau A. (2005) US patent 6.656.263.
  • Riley V.R., Razl I. (1974) Polymer additives for cement composites: a review, Composites 27-33.
  • Sakai E.,Sugita J. (1995) Composite mechanism of polymer modified cement, Cement Concrete Res. 25, 127-135. [CrossRef]
  • Schulze J. (1999) Influence of water-cement ratio and cement content on the properties of polymer-modified mortars, Cement Concrete Res. 29, 909-915. [CrossRef]
  • Schulze J.,Killermann O. (1999) Long-term performance of redispersible powders in mortars, Cement Concrete Res. 31, 357-362. [CrossRef]
  • Bureau L.,Alliche A.,Pilvin Ph.,Pascal S. (2001) Mechanical characterization of a styrene-butadiene modified mortar, Mat. Sci. Eng. A-Struct. 308, 233-240. [CrossRef]
  • Pascal S. (2002) Comportement mécanique de composites mortier-polymère, PhD Thesis, École Centrale des Arts et Manufactures.
  • Nehdi M.,Summer J. (2002) Recycling waste paint in concrete, Cement Concrete Res. 33, 857-863. [CrossRef]
  • Zhong S.,Chen Z. (2002) Properties of latex blend and its modified cement mortars, Cement Concrete Res. 32, 1515-1524. [CrossRef]
  • Atzeni C.,Massidda L.,Sanna U. (1989) Rheological behaviour of cements mixed with polymeric lattices, Int. J. Cement Composites and Lightweight Concrete 11, 215-219. [CrossRef]
  • Gregory T., O'Keefe S.J. (1990) Rheological measurements on fresh polymer-modified cement pastes, Proceedings of the International Conference organized by the British Society of Rheology, pp. 69-79.
  • Nicoleau L., Garrault S., Nonat A., Pourchet S. (2003) Étude par rhéométrie dynamique des interactions physico-chimiques entre les latex et les phases minérales constituant le ciment, Congrès du GFR, Brest, 2003.
  • Beeldens A., Van Gemert D., Ohama Y. (2003) Integrated model of structure formation in polymer modified concrete, Proceedings of the 11th International Congress on the Chemistry of Cement.
  • Ollitrault-Fichet R.,Gauthier C.,Clamen G.,Boch P. (1998) Microstructural aspects in a polymer-modified cement, Cement Concrete Res. 28, 1687-1693. [CrossRef]
  • Zeng S.,Short N.R.,Page C.L. (1996) Early-age hydration kinetics of polymer-modified cement, Adv. Cem. Res. 29, 1-9. [CrossRef]
  • Janotka I., Madejova J., Stevula L., Frt'alova D.M. (1996) Behaviour Ca(OH)2 in the presence of the set styrene-acrylate dispersion, Cement Concrete Res. 26, 1727-1735.
  • Rottstegge J.,Arnold M.,Herschke L.,Glasser G.,Wilhelm M.,Spiess H.W.,Hergeth W.D. (2005) Solid state NMR and LVSEM studies on the hardening of latex modified tile mortar systems, Cement Concrete Res. 35, 2233-2243. [CrossRef]
  • Nelson E.B. (ed.) (1990) Well Cementing, Schlumberger Educational Services, Houston.
  • Taylor H.F.W. (1997) Cement Chemistry, 2nd ed., Thomas Telford Publishing, London.
  • Powers T.C. (1958) Structure and Physical Properties of Hardened Portland Cement Paste, J. Am. Ceram. Soc. 41, 1-6 and references therein. [CrossRef]
  • Nachbaur L.,Mutin J.C.,Nonat A.,Choplin L. (2001) Dynamic mode rheology of cement and tricalcium silicate pastes from mixing to setting, Cement Concrete Res. 31, 183-192. [CrossRef]
  • Jiang S.P.,Mutin J.C.,Nonat A. (1995) Studies on the Mechanism and Physico-Chemical Parameters at the Origin of Cement Setting. I. The Fundamental Processes involved during Cement Setting, Cement Concrete Res. 25, 779-789. [CrossRef]
  • Jiang S.P.,Mutin J.C.,Nonat A. (1996) Studies on the Mechanism and Physico-Chemical Parameters at the Origin of Cement Setting. II. Physico-Chemical Parameters determining the Coagulation Process, Cement Concrete Res. 26, 491-500. [CrossRef]
  • Nachbaur L., Nkinamubanzi P.C., Nonat A., Mutin J.C. (1998) Electrokinetic Properties which control the Coagulation of Silicate Cement Suspensions during Early Age Hydration, J. Colloid Interf. Sci. 202, 261-268.
  • Garrault-Gauffinet S., Nonat A. (1999) Experimental Investigation of Calcium Silicate Hydrate (C-S-H) Nucleation, J. Cryst. Growth 200, 565-574.
  • Maggion R., Bonnamy S., Levitz P., Van Damme H. (1996) A scaling model of the microstructural evolution in C3S/C-S-H pastes, in The Modeling of Microstructure and its Potential for Studying Transport Properties and Durability, Jennings H., Kropp J., Scrivener K. (eds), NATO ASI Series E: Applied Sciences, 304, Kluwer Academic Publishers, Dordrecht, pp. 137-155.
  • Levitz P. (2007) Toobox for 3D imaging and modeling of porous media: Relationship with transport properties, Cement Concrete Res. 37, 351-359. [CrossRef]
  • Maggion R., Tinet D., Levitz P., Van Damme H. (1992) Microtextural evolution of CSH pastes during hydration, in Hydration and Settings of Cement, Nonat A., Mutin J.C. (eds), RILEM Proceedings 16, E&FN SPON.
  • Shaughnessy R., Clark PE (1988) The rheological behavior of fresh cement pastes, Cement Concrete Res. 18, 327-341.
  • Lootens D. (2004) Ciment et suspensions concentrées modèles. Écoulement, encombrement et floculation, PhD Thesis, Université Paris 6.
  • Schultz M.A.,Struble L.J. (1993) Use of oscillatory shear to study flow behaviour of fresh cement paste, Cement Concrete Res. 23, 273-282. [CrossRef]
  • Chougnet A. (2006) Composites ciment/polymère : rhéologie, hydratation, PhD Thesis, Université de Bretagne Occidentale.
  • Barnes H.A.,Nguyen Q.D. (2001) Rotating vane rheometry - a review, J. Non-Newton Fluid 98, 1-14. [CrossRef]
  • Chougnet A.,Audibert A.,Moan M. (2007) Linear and nonlinear rheological behaviour of cement and silica suspensions. Effect of polymer addition, Rheol. Acta 46, 793-802. [CrossRef]
  • Heymann L.,Peukert S.,Aksel N. (2002) Investigation of the solid-liquid transition of highly concentrated suspensions in oscillatory amplitude sweeps, J. Rheol. 46, 93-112. [CrossRef]
  • Jönsson B.,Wennerström H.,Nonat A.,Cabane B. (2004) Onset of cohesion in cement pastes, Langmuir 20, 6702-6709. [CrossRef] [PubMed]
  • Chougnet A.,Palermo T.,Audibert A.,Moan M. (2008) Rheological behaviour of cement and silica suspensions: Particle aggregation modelling, Cement Concrete Res. 38, 1297-1301. [CrossRef]
  • Nicoleau L. (2004) Interactions physico-chimiques entre le latex et les phases minérales constituant le ciment au cours de son hydratation, PhD Thesis, Université de Bourgogne.
  • Merlin F.,Guitouni H.,Mouhoubi H.,Mariot S.,Vallée F., Van Damme H. (2005) Adsorption and heterocoagulation of nonionic surfactants and latex particles on cement hydrates, J. Colloid Interf. Sci. 281, 1-10. [CrossRef]
  • LeSaoût G.,Lécolier E.,Rivereau A.,Zanni H. (2004) Study of oilwell cements by solid-state NMR, C.R. Chimie 7, 383-388. [CrossRef]
  • Chougnet A., Audibert A., Moan M., Lécolier E., Mazard C., Guichard B., Valenti A. (2006) Polymer powder/cement Composites for oil and gas wells, SPE paper 102173, SPE ATCE San Antonio, TX.

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