S. Aggoun, M. Cheikh-zouaoui, C. N. Duval, and R. , Effect of some admixtures on the setting time and strength evolution of cement pastes at early ages, Construction and Building Materials, vol.22, issue.2, pp.106-110, 2008.

I. Aiad, A. A. Mohammed, and S. A. Abo-el-enein, Rheological properties of cement pastes admixed with some alkanolamines, Cement and Concrete Research, vol.33, issue.1, pp.9-13, 2003.

E. C. Arvaniti, M. Juenger, and S. A. Bernal, Determination of particle size, surface area, and shape of supplementary cementitious materials by different techniques, Materials and Structures, vol.48, issue.44, pp.3687-3701, 2015.

C. Autier, N. Azéma, and P. Boustingorry, Using settling behaviour to study mesostructural organization of cement pastes and superplasticizer efficiency, Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol.450, pp.36-45, 2014.

E. Berodier, Impact of the Supplementary Cementitious Materials on the Kinetics and Microstructural Development of Cement Hydration, 2015.

C. Fernandez and M. M. , Effect of Particle Size on the Hydration Kinetics and Microstructural Development of Tricalcium Silicate, 2008.

D. Oliveira, I. R. Studart, A. R. Valenzuela, F. Pandolfelli, and V. C. , Setting behavior of ultra-low cement refractory castables in the presence of citrate and polymethacrylate salts, Journal of the European Ceramic Society, vol.23, issue.13, pp.2225-2235, 2003.

Y. Elakneswaran, T. Nawa, and K. Kurumisawa, Zeta potential study of paste blends with slag, Cement & Concrete Composites, vol.31, issue.1, pp.72-76, 2009.

R. Flatt, Polymeric dispersants in concrete, Polymers in Particulate Systems: Properties and Applications, pp.247-294, 2001.

E. Gartner and D. Myers, Influence of tertiary alkanolamines on Portland cement hydration, Journal of the American Ceramic Society, vol.76, issue.6, pp.1521-1530, 1993.

D. Han and R. D. Ferron, Influence of high mixing intensity on rheology, hydration, and microstructure of fresh state cement paste, Cement and Concrete Research, vol.84, pp.95-106, 2016.

J. Han, K. Wang, J. Shi, and Y. Wang, Mechanism of triethanolamine on Portland cement hydration process and microstructure characteristics, Construction and Building Materials, vol.93, pp.457-462, 2015.

D. Heinz, M. Göbel, H. Hilbig, L. Urbonas, and G. Bujauskaite, Effect of TEA on fly ash solubility and early age strength of mortar, Cement and Concrete Research, vol.40, issue.3, pp.392-397, 2010.

Z. Heren and H. Ölmez, The influence of ethanolamines on the hydration and mechanical properties of Portland cement, Cement and Concrete Research, vol.26, issue.5, pp.701-705, 1996.

H. Huang and X. Shen, Interaction effect of triisopropanolamine and glucose on the hydration of Portland cement, Construction and Building Materials, vol.65, pp.360-366, 2014.

S. Kim, K. Hyun, J. Y. Moon, C. Clasen, and K. H. Ahn, Depletion stabilization in nanoparticle ? polymer suspensions: multi-lengthscale analysis of microstructure, Langmuir, vol.31, issue.6, pp.1892-1900, 2015.

L. Saoût, G. Lécolier, E. Rivereau, A. Zanni, and H. , Chemical structure of cement aged at normal and elevated temperatures and pressures, part II: low permeability class G oilwell cement, Cement and Concrete Research, vol.36, issue.3, pp.428-433, 2006.

L. Saoût, G. , K. V. Scrivener, and K. , Application of the Rietveld method to the analysis of anhydrous cement, Cement and Concrete Research, vol.41, issue.2, pp.133-148, 2011.

A. D. Levine, G. Tschobanoglous, and T. Asano, Size distributions of particulate contaminants in wastewater and their impact on treatability, Water Research, vol.25, issue.8, pp.911-922, 1991.

B. Lothenbach and F. Winnefeld, Thermodynamic modelling of the hydration of Portland cement, Cement and Concrete Research, vol.36, issue.2, pp.209-226, 2006.

N. Menek and Z. Heren, Analysis of triethanolamine in trass cement pastes by voltammetric methods, Cement and Concrete Research, vol.30, issue.10, pp.1615-1617, 2000.

O. Mengual, G. Meunier, I. Cayre, K. Puech, and P. Snabre, Characterisation of instability of concentrated dispersions by a new optical analyser: the Turbiscan MA 1000, Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol.152, issue.1-2, pp.111-123, 1999.

O. Mengual, G. Meunier, I. Cayre, K. Puech, and P. Snabre, Turbiscan MA 2000: multiple light scattering measurement for concentrated emulsion and suspension instability analysis, Talanta, vol.50, issue.2, pp.445-456, 1999.

N. Mikanovic and C. Jolicoeur, Influence of superplasticizers on the rheology and stability of limestone and cement pastes, Cement and Concrete Research, vol.38, issue.7, pp.907-919, 2008.

J. Mutin, L. Nachbaur, and P. Nkinamubanzi, Electrokinetic properties which control the coagulation of silicate cement suspensions during early age hydration, Journal of Colloid and Interface Science, vol.268, issue.202, pp.261-268, 1998.

C. M. Neubauer, Y. M. Jennings, and H. M. , Interparticle potential and sedimentation behavior of cement suspensions: effects of admixtures, Advanced Cement Based Materials, vol.8, issue.1, pp.17-27, 1998.

J. P. Perez, Etude de l'hydratation des Phases Constitutives d'un Ciment Portland et de la Résistance Mécanique des Pâtes Pures et Mortiers: Influence des Trialcanolamines, 2002.

V. S. Ramachandran, Hydration of cement -role of triethanolamine, Cement and Concrete Research, vol.6, issue.5, pp.623-631, 1976.

K. L. Scrivener, P. Juilland, and P. Monteiro, Advances in understanding hydration of Portland cement, Cement and Concrete Research, vol.78, pp.38-56, 2015.

A. N. Semenov and A. A. Shvets, Theory of colloid depletion stabilization by unattached and adsorbed polymers, Soft Matter, vol.11, issue.45, pp.8863-8878, 2015.

C. Shi, G. Zhang, T. He, and Y. Li, Effects of superplasticizers on the stability and morphology of ettringite, Construction and Building Materials, vol.112, pp.261-266, 2016.

J. Skibsted and H. J. Jakobsen, Characterization of the calcium silicate and aluminate phases in anhydrous and hydrated Portland cements by 27Al and 29Si MAS NMR spectroscopy, Nuclear Magnetic Resonance Spectroscopy of Cement-Based Materials, 1998.

. Springer, , pp.3-45

J. Tritthart and F. Häussler, Pore solution analysis of cement pastes and nanostructural investigations of hydrated C3S, Cement and Concrete Research, vol.33, issue.7, pp.1063-1070, 2003.

D. A. Williams, A. W. Saak, and H. M. Jennings, Influence of mixing on the rheology of fresh cement paste, Cement and Concrete Research, vol.29, issue.9, pp.1491-1496, 1999.

L. Xu, W. P. Zhang, and G. , Formation of ettringite in Portland cement/calcium aluminate cement/calcium sulfate ternary system hydrates at lower temperatures, Construction and Building Materials, vol.31, pp.347-352, 2012.

S. Yang, J. Wang, S. Cui, H. Lui, and X. Wang, Impact of four kinds of alkanolamines on hydration of steel slag-blended cementitious materials, Construction and Building Materials, vol.131, pp.655-666, 2017.

Y. L. Yaphary, Z. Yu, R. Lam, and D. Lau, Effect of triethanolamine on cement hydration toward initial setting time, Construction and Building Materials, vol.141, pp.94-103, 2017.

V. T. Yilmaz, N. Menek, and M. Odabasoglu, Quantitative determination of triethanolamine in cements, Cement and Concrete Research, vol.23, issue.8, pp.603-608, 1993.

Y. R. Zhang, X. M. Kong, and Z. C. Lu, Influence of triethanolamine on the hydration product of portlandite in cement paste and the mechanism, Cement and Concrete Research, vol.87, pp.64-76, 2016.

A. Zingg, L. Holzer, and A. Kaech, The microstructure of dispersed and non-dispersed fresh cement pastes -new insight by cryo-microscopy, Cement and Concrete Research, vol.38, issue.4, pp.522-529, 2008.