O. Andac, Microstructure and microchemistry of calcium sulfoaluminate cement, Materials research Society Symposium Proceedings, pp.23-26, 1999.

P. Arjunan, M. R. Silsbee, and D. M. Roy, Sulfoaluminate-belite cement from low-calcium fly ash and sulfur-rich and other industrial by-products, vol.29, pp.1305-1311, 1999.

K. R. Backe, O. B. Lile, and S. K. Lyomov, Characterizing curing cement slurries by electrical conductivity, Spe Drilling & Completion, vol.16, pp.201-207, 2001.

J. Beretka, B. Devito, and L. Santoro, Hydraulic Behavior of Calcium Sulfoaluminate-Based Cements Derived from Industrial-Process Wastes, vol.23, pp.1205-1214, 1993.

S. Berger and C. Cau-dit-coumes, Stabilization of ZnCl2-containing wastes using calcium sulfoaluminate cement: Leaching behavior of the solidified waste form, mechanims of zinc retention, Casabonne Masonnave J.M, vol.194, pp.268-276, 1987.

J. B. Champenois, Etude de l'hydratation des ciments sulfo-alumineux par des solutions de borate de sodium: de la spéciation du bore au retard à l'hydratation. Thesis (PhD), 2012.

J. B. Champenois, C. Cau-dit-coumes, and A. Poulesquen, Beneficial use of a cell coupling rheometry, conductimetry, and calorimetry to investigate the early age hydration of calcium sulfoaluminate cement, Rheological Acta, vol.12, pp.177-187, 2013.

J. B. Champenois, M. Dhoury, and C. Cau-dit-coumes, Synthesis and hydration of calcium sulfoaluminatebelite cements with varied phase compositions, Journal of Materials Science, vol.70, pp.111-119, 1996.

A. Feraille, A. Alaoui, A. Steckmeier, and R. Leroy, New cements for sustainable development, 12 th International Congress on the Chemistry of Cement Proceedings, 2007.

E. Gartner, Industrially interesting approaches to "low-CO2" cements, Cement and Concrete Research, vol.34, pp.1489-1498, 2004.

F. P. Glasser and L. Zhang, High-performance cement matrices based on calcium sulphoaluminatebelite compositions, Cement and Concrete Research, vol.31, pp.1881-1886, 2001.

T. Isobe and T. Watanabe, Solid-state 1 H and 27 Al NMR studies of amorphous aluminum hydroxides, Journal of Colloid and Interface Science, vol.261, pp.320-324, 2003.
URL : https://hal.archives-ouvertes.fr/hal-00162348

I. Janotka, L. Krajci, V. Kasselouri, and P. Tsakiridis, An experimental study on the upgrade of sulfoaluminate-belite cement systems by blending with Portland cement, Cement and Concrete Research, vol.11, pp.1726-1736, 1995.

P. H. Kemp, Studies of calcium sulfoaluminate admixture for expansive cements, ASTM Proceedings, vol.986, 1956.

J. Majling, J. Strigac, and D. Roy, Generalized Bogue computations to forecast the mineralogical composition of sulfoaluminate cements based on fly ashes, Advances in Cement Research, vol.11, pp.27-34, 1999.

D. Massiot, F. Fayon, and M. Capron, Modelling one and two-dimensional solid-state NMR spectra, Magnetic Resonance in Chemistry, vol.40, pp.70-76, 2002.

T. Matusinovic, N. Vrbos, and D. Curlin, Lithium salts in rapid setting high alumina cement materials, Industrial & Engineering Chemistry Research, vol.33, pp.2795-2800, 1994.

R. K. Mehta, Investigation on the products in the system C 4A3S-CaSO4 -CaO-H2O, Annual meeting of the Highway Research Board Proceedings, pp.129-140, 1965.

J. Pera and J. Ambroise, New applications of Calcium Sulfoaluminate Cements, Cement and Concrete Research, vol.34, pp.557-562, 2004.

H. Poellmann, S. Auer, and H. J. Kuzel, Solid solution of ettringite -Part II -Incorporation of B(OH)4 -and CrO4 2-in 3CaO.Al2O3.3CaSO4.32H2O. Cement and Concrete Research, vol.23, pp.422-430, 1993.

C. D. Popescu, M. Muntean, and J. H. Sharp, Industrial trial production of low energy belite cement. Cement and Concrete Composites, vol.25, pp.689-693, 2003.

K. Quilin, Performance of belite-sulfoaluminate cements, The journal of Physical Chemistry, vol.31, pp.19-24, 1955.

S. A. Rodger and D. D. Double, The chemistry of hydration of high alumina cement in presence of accelerating and retarding admixtures, Cement and Concrete Research, vol.14, pp.73-82, 1984.

S. Sahu and J. Majling, Phase compability in the system CaO-SiO2-Al2O3-Fe2O3-SO3 referred to sulphoaluminate belite cement clinker, Advances in Cement Reserch, vol.23, pp.3-13, 1993.

N. Sherman, J. Beretka, L. Santoro, and G. L. Valenti, Long-term Behavior of Hydraulic Blinders Based on Calcium Sulfoaluminate and Calcium Sulfosilicate, Cement and Concrete Research, vol.25, pp.113-126, 1995.

Y. Takuma, T. Shirasaka, and M. Kanaya, Effect of reducing the emissions of CO2 and the characters of clinker in the system C2S-C4A3S-C4AF-CS. Nippon serimamikkusu kyotai gakujutsu ronbunshi, vol.102, pp.1115-1121, 1994.

R. Wenda and H. J. Kuzel, Calorimetric and thermogravimetric study on the influence of calcium sulfate on the hydration of ye'elimite, Journal of Thermal Analysis and Calorimetry, vol.61, pp.949-957, 1983.

L. Zhang and F. P. Glasser, Hydration of calcium sulfoaluminate cement at less than 24h, Advances in Cement Research, vol.14, pp.141-155, 2002.

L. Zhang and F. P. Glasser, Investigation of the microstructure and carbonation of CSA-based concretes removed from service, vol.35, pp.2252-2260, 2005.