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Hydration of calcium sulfoaluminate cement by a ZnCl2 solution: Investigation at early age / Stéphane Bergera in Cement and concrete research, Vol. 39 N° 12 (Décembre 2009) 

Public ISBD [article]  in Cement and concrete research > Vol. 39 N° 12 (Décembre 2009) . - pp. 1180-1187 Titre : Hydration of calcium sulfoaluminate cement by a ZnCl2 solution: Investigation at early age Type de document : texte imprimé Auteurs : Stéphane Bergera, Auteur ; Céline Cau Dit Coumes, Auteur ; Patrick Le Bescop, Auteur Année de publication : 2010 Article en page(s) : pp. 1180-1187 Note générale : Génie Civil Langues : Anglais (eng) Mots-clés : Sulfialuminate;  Hydration;  Zinc;  Waste  management;  Calorimetry Index. décimale : 691 Matériaux de construction. Pièces et parties composantes Résumé : Hydration of calcium sulfoaluminate cement at early age was investigated as a function of the gypsum content of the binder, the thermal history of the material, and the ZnCl2 concentration in the mixing solution. Early hydration was strongly accelerated by the presence of gypsum, but lower percentages of reaction were reached after 24 h. The slowing down effect induced by ZnCl2, even at a concentration as high as 0.5 mol/L, was moderated compared to OPC but had a greater intensity in the absence of gypsum. Unlike what would have been expected for Portland cement, it was shown that the delay of a gypsum-free calcium sulfoaluminate cement resulted from the strong retardation caused by chloride anions, which was partly compensated by the accelerating effect of Zn2+ cations. The mineralogical observations revealed the precipitation of chloro–AFm phases such as Friedel's and Kuzel's salts, but no crystallized zinc-containing phases could be identified by XRD. The thermal history of the samples proved to be a key parameter. Applying a thermal cycle which reproduced the temperature rise and decrease occurring in a massive mortar block accelerated the rate of hydration and mainly modified the proportion of AFt versus AFm hydrates, especially when the binder had a gypsum content below 20%. DEWEY : 620.13 ISSN : 0008-8846 En ligne : http://www.sciencedirect.com/science/article/pii/S000888460900204X [article] Hydration of calcium sulfoaluminate cement by a ZnCl2 solution: Investigation at early age [texte imprimé] / Stéphane Bergera, Auteur ; Céline Cau Dit Coumes, Auteur ; Patrick Le Bescop, Auteur . - 2010 . - pp. 1180-1187. Génie Civil Langues : Anglais (eng) in Cement and concrete research > Vol. 39 N° 12 (Décembre 2009) . - pp. 1180-1187 Mots-clés : Sulfialuminate;  Hydration;  Zinc;  Waste  management;  Calorimetry Index. décimale : 691 Matériaux de construction. Pièces et parties composantes Résumé : Hydration of calcium sulfoaluminate cement at early age was investigated as a function of the gypsum content of the binder, the thermal history of the material, and the ZnCl2 concentration in the mixing solution. Early hydration was strongly accelerated by the presence of gypsum, but lower percentages of reaction were reached after 24 h. The slowing down effect induced by ZnCl2, even at a concentration as high as 0.5 mol/L, was moderated compared to OPC but had a greater intensity in the absence of gypsum. Unlike what would have been expected for Portland cement, it was shown that the delay of a gypsum-free calcium sulfoaluminate cement resulted from the strong retardation caused by chloride anions, which was partly compensated by the accelerating effect of Zn2+ cations. The mineralogical observations revealed the precipitation of chloro–AFm phases such as Friedel's and Kuzel's salts, but no crystallized zinc-containing phases could be identified by XRD. The thermal history of the samples proved to be a key parameter. Applying a thermal cycle which reproduced the temperature rise and decrease occurring in a massive mortar block accelerated the rate of hydration and mainly modified the proportion of AFt versus AFm hydrates, especially when the binder had a gypsum content below 20%. DEWEY : 620.13 ISSN : 0008-8846 En ligne : http://www.sciencedirect.com/science/article/pii/S000888460900204X