A. R. Cestari, E. F. Vieira, and A. A. Pinto, Synthesis and characterization of epoxymodified cement slurries -Kinetic data at hardened slurries / HCl interfaces?, Journal of Colloid and Interface Science, issue.2, pp.267-274, 2008.

L. Crépy, J. Petit, and E. Wirquin, Synthesis and evaluation of starch-based polymers as potential dispersants in cement slurries and self-leveling compounds?, Cement and Concrete Composites, vol.45, pp.29-38, 2014.

T. M. Pique, S. Baueregger, and J. Plank, Influence of temperature and moisture on the shelf-life of cement admixed with redispersible polymer powder?, Construction and Building Materials, v. 115, pp.336-344, 2016.

F. Djouani, C. Connan, and M. Chehimi, Interfacial chemistry of epoxy adhesives on hydrated cement slurry?, Surface and Interface Analysis, pp.146-150, 2008.

G. Saout, . Le, E. Lécolier, and A. Rivereau, Chemical structure of cement aged at normal and elevated temperatures and pressures: Part I. Class G oilwell cement?, pp.71-78, 2006.

R. B. Torres, J. C. Santos, and T. H. Dos;-panzera, Hybrid glass fibre reinforced composites containing silica and cement microparticles based on a design of experiment?, Polymer Testing, vol.57, pp.87-93, 2017.

L. Czarneck, Adhesion-A Challenge for Concrete Repair, concrete repair, rehabilitation and retrofitting II, 2008.

C. A. Anagnostopoulos, G. Sapidis, and E. Paslurryrgiadis, -Fundamental properties of epoxy resin-modified cement grouts?, Construction and Building Materials, v. 125, pp.184-195, 2016.

K. Weerdt, . De, and H. Justnes, The effect of seawater on the phase assemblage of hydrated cement paste?, Cement and Concrete Composites, vol.55, pp.215-222, 2015.

K. Weerdt, . De, H. Justnes, and M. R. Geiker, -Changes in the phase assemblage of concrete exposed to seawater?, Cement and Concrete Composites, vol.47, pp.53-63, 2014.

, Recommended practice for testing well cements, 1997.

E. F. Vieira, P. F. Lima, and I. M. Santos, The Influence of In Situ Polymerized Epoxidized A / F Bisphenol-Chitosan on Features of Oilwell Cement Slurry -Molecular-Level Analysis and Long-Term Interaction of API Fracturing Fluid?, Journal of Applied Polymer Science, pp.1-9, 2014.

A. R. Cestari, E. F. Vieira, and A. M. Tavares, Cement-epoxy/water interfaces -Energetic, thermodynamic, and kinetic parameters by means of heat-conduction microcalorimetry?, Journal of Colloid and Interface Science, issue.1, pp.162-167, 2010.

M. Eagleson, Concise Encyclopedia Chemistry, 1994.

B. M. Reddy, H. S. Rao, and M. P. George, Effect of Hydrochloric Acid (HCl) on Blended Cement (Fly Ash based) and Silica Fume Blended Cement and their Concretes?, International Journal of Science and Technology, issue.9, pp.476-480, 2012.

S. Martinez-ramirez, M. Frias, and C. Domingo, Raman spectroscopy in White Portland cement hydration: long-term study at room temperature?, Journal of Raman Spectroscopy, issue.5, pp.555-561, 2006.

A. Hidalgo, C. Domingo, and C. Garcia, Microstructural changes induced in Portland cement-based materials due to natural and supercritical carbonation?, Journal of Materials Science, issue.9, pp.3101-3111, 2008.

M. E. Saraya, Study physico-chemical properties of blended cements containing fixed amount of silica fume, blast furnace slag, basalt and limestone, a comparative study?, Construction and Building Materials, vol.72, pp.104-112, 2014.

B. W. Jo, S. Chakraborty, and Y. S. Lee, Hydration study of the polymer modified jute fibre reinforced cement slurry using analytical techniques?, Construction and Building Materials, v, vol.101, pp.166-173, 2015.

J. Geng, D. Easterbrook, and L. Li, The stability of bound chlorides in cement paste with sulfate attack?, vol.68, pp.211-222, 2015.

L. Chen, X. Wang, and Z. Jia, Use of precipitated silica with silanol groups as an inorganic chain extender in polyurethane?, Materials & Design, vol.87, pp.324-330, 2015.

L. Black, C. Breen, and J. Yarwood, Hydration of tricalcium aluminate (C 3 A) in the presence and absence of gypsum-studied by Raman spectroscopy and X-ray diffraction?, Journal of Materials Chemistry, pp.1263-1272, 2006.

A. Jenni, L. Holzer, R. Zurbriggen, and M. Herwegh, Influence of polymers on microstructure and adhesive strength of cementitious tile adhesive mortars?, pp.35-50, 2005.

E. Kamseu, M. Chiara, and U. C. Melo, Design of inorganic polymer cements : Effects of matrix strengthening on microstructure, Construction and Building Materials, v. 38, pp.1135-1145, 2013.

F. Djouani, C. Connan, and M. Delamar, Cement slurry -epoxy adhesive interactions?, Construction and Building Materials, v. 25, pp.411-423, 2011.

A. Bordy, A. Younsi, S. Aggoun, and B. Fiorio, Cement substitution by a recycled cement paste fine: Role of the residual anhydrous clinker. Construction and Building Materials, v, vol.132, pp.1-8, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02153918

A. R. Cestari, E. F. Vieira, and F. J. Alves, A novel and efficient epoxy / chitosan cement slurry for use in severe acidic environments of oil wells -Structural characterization and kinetic modeling?, Journal of Hazardous Materials, pp.109-116, 2012.

E. Knapen and D. V. Gemert, Cement hydration and microstructure formation in the presence of water-soluble polymers?, pp.6-13, 2009.

X. X. Gao, M. Cyr, and S. Multon, A comparison of methods for chemical assessment of reactive silica in concrete aggregates by selective dissolution?, Cement and Concrete Composites, pp.82-94, 2013.

J. J. Chen, J. J. Thomas, and H. Jennings, Decalcification shrinkage of cement paste?. Cement and Concrete Research, vol.36, pp.801-809, 2006.

A. E. Elmoaty, Mechanical properties and corrosion resistance of concrete modified with granite dust?, Construction and Building Materials, v. 47, pp.743-752, 2013.

V. Zivica and A. Bajza, Acidic attack of cement-based materials -a review Part 2. Factors of rate of acidic attack and protective measures?, Construction and Building Materials, v, vol.16, pp.215-222, 2002.

A. Palomo, M. W. Grutzeck, and M. T. Blanco, Alkali-activated fly ashes: A cement for the fu-ture?, pp.1323-1329, 1999.

Z. Shi, M. R. Geiker, and B. Lothenbach, Friedel's salt profiles from thermogravimetric analysis and thermodynamic modelling of Portland cement-based mortars exposed to sodium chloride solution. Cement and Concrete Composites, vol.78, pp.73-83, 2017.

H. M. Ludwig and W. Zhang, Research review of cement clinker chemistry?, vol.78, pp.24-37, 2015.

S. A. Abo-el-enein, G. El-kady, T. M. El-sokkary, and M. Gharieb, Physico-mechanical properties of composite cement slurries containing silica fume and fly ash?, HBRC Journal, issue.11, pp.7-15, 2015.

R. Ylmén, L. Wadsö, and I. Panas, -Insights into early hydration of Portland limestone cement from infrared spectroscopy and isothermal calorimetry?, pp.1541-1546, 2010.

G. L. Saou, E. Lécolier, and A. Rivereau, Chemical structure of cement aged at normal and elevated temperatures and pressures, Part II : Low permeability class G oil well cement?, pp.428-433, 2006.

H. J. Jakobsen, S. L. Poulsen, and V. Kocaba, Improved quantification of alite and belite in anhydrous Portland cements by Si MAS NMR: Effects of paramagnetic ions?. Solid State Nuclear Magnetic Resonance, pp.32-33, 2009.

S. Sen and R. E. Youngman, High-Resolution Multinuclear NMR Structural Study of Binary Aluminosilicate and Other Related Glasses?, Journal of Physical Chemistry B, vol.108, issue.23, pp.7557-7564, 2004.

G. Paul, E. Boccaleri, and L. Buzzi, Friedel's salt formation in sulfoaluminate cements: A combined XRD and Al MAS NMR study?, vol.67, pp.93-102, 2015.

D. Gastaldi, G. Paul, and L. Marchese, Hydration products in sulfoaluminate cements: Evaluation of amorphous phases by XRD / solid-state NMR?, vol.90, pp.162-173, 2016.

W. Wang, P. Liu, and M. Zhang, The Pore Structure of Phosphoaluminate Cement?, pp.104-112, 2012.

D. A. Silva, V. M. John, and J. L. Ribeiro, Pore size distribution of hydrated cement slurries modified with polymers?, pp.1177-1184, 2001.

L. K. Aggarwal, P. C. Thapliyal, and S. R. Karade, Properties of polymer-modified mortars using epoxy and acrylic emulsions?, Construction and Building Materials, v. 21, pp.379-383, 2007.

X. Chen, S. Wu, and J. Zhou, Influence of porosity on compressive and tensile strength of cement mortar?, Construction and Building Materials, v. 40, pp.869-874, 2013.

J. M. Reis, Fracture assessment of polymer concrete in chemical degradation solutions?, Construction and Building Materials, v. 24, n. 9, pp.1708-1712, 2010.

V. Zivica, M. T. Palou, and M. Krizma, Acidic attack of cement based materials under the common action of high, ambient temperature and pressure?, Construction and Building Materials, v. 36, pp.623-629, 2012.

E. C. Lopes, F. S. Anjos, and E. F. Vieira, An alternative Avrami equation to evaluate kinetic parameters of the interaction of Hg (II) with thin chitosan membranes?, Journal of Colloid and Interface Science, issue.2, pp.542-547, 2003.

A. Santilli, I. Puente, and M. Tanco, -Fresh concrete lateral pressure decay : Kinetics and factorial design to determine significant parameters?, Engineering Structures, vol.52, pp.114-122, 2013.

A. L. Allahverdi and F. ?kvára, Acidic corrosion of hydrated cement based materials part 2. Kinetics of the phenomenon and mathematical models?, Ceramics, v. 44, n. 4, pp.152-160, 2000.

J. Santos,

E. Vieira,

G. L. Saoût,

A. Reinaldo and C. ,