Slag-based hydraulic binder, dry mortar composition comprising same and system for activating a slag-based binder

1 . A hydraulic binder comprising (in % by dry weight): A. at least 50 of at least one ground and granulated blast-furnace slag; B. more than 5 of at least one calcium aluminate cement and/or of at least one calcium sulfoaluminate cement; C. more than 5 of at least one source of sulfate ions; D. between 1 and 5 of Ca(OH) 2 and/or of Portland cement; E. between 0.01 and 1 of at least one alkali metal carbonate; F. and at least one alkalifying reagent consisting of at least one alkali metal carbonate and/or bicarbonate, different from E; subject to the following conditions: (i) the amount of C is sufficient to allow the sulfate ions of C to react with B and with A; (ii) the amount of F is sufficient so that its reaction with component D in the presence of water brings the pH of the resulting wet formulation to a value of not less than 12, for a water-to-binder mixing rate of between 10 and 35% by weight. 2 . The hydraulic binder according to claim 1 , wherein 0.1<[C]/[A]; 0.5<[C]/[B]. 3 . The hydraulic binder according to claim 1 , wherein the source C of sulfate ions is selected from the group comprising: natural or synthetic gypsum, calcium sulfate hemihydrate, bassanite, anhydrite, selenite, alabaster, fibrous gypsum, saccharoidal gypsum, marine gypsum, gypsum flower, phosphogypsum, desulfurization gypsum, titanogypsum, citrogypsum, tartarogypsum, borogypsum, lactogypsum and mixtures thereof. 4 . The hydraulic binder according to claim 1 , comprising (in % by dry weight): A. 55 to 90 of at least one ground and granulated blast-furnace slag; B. 5.5 to 30 of at least one calcium aluminate cement and/or of at least one calcium sulfoaluminate cement; C. 6 to 30 of at least one source of sulfate ions; D. 1 to 5 of Ca(OH) 2 and/or of Portland cement; E. 0.01 to 1 of Li 2 CO 3 ; F. and at least one alkalifying reagent consisting of at least one alkali metal carbonate and/or bicarbonate, different from E; G. 0 to 10 of at least one binder different from A, B and D, comprising: silica or silica-alumina binders, fly ashes, advantageously silica-alumina fly ashes, silica-calcium-alumina fly ashes, expanded or calcined clay dusts and/or metakaolins. 5 . A dry mortar composition wherein it comprises a binder according to claim 1 . 6 . The composition according to claim 5 , wherein it is an adhesive mortar and in that it comprises (in % by dry weight): A. 10 to 50 of at least one ground and granulated blast-furnace slag; B. 0.5 to 20 of at least one calcium aluminate cement and/or of at least one calcium sulfoaluminate cement; C. 1 to 20 of at least one source of sulfate ions with 0.5≤[C]/[B]≤3; D. 0.05 to 5 of Ca(OH) 2 and/or of Portland cement; E. 0.02 to 0.8 of Li 2 CO 3 ; F. and at least one alkalifying reagent consisting of at least one alkali metal carbonate and/or bicarbonate, different from E; G. 30 to 80 of at least one type of aggregates; H. 1 to 10 of at least one redispersible polymer; I. 0.01 to 5 of at least one thickener; J. 0.01 to 0.5 of at least retarder. 7 . The composition according to claim 5 , wherein it is a screed or a render and in that it comprises (in % by dry weight): A. 3 to 50 of at least one ground and granulated blast-furnace slag; B. 0.5 to 20 of at least one calcium aluminate cement and/or of at least one calcium sulfoaluminate cement; C. 1 to 20 of at least one source of sulfate ions with 0.5≤[C]/[B]≤3; D. 0.05 to 5 of Ca(OH) 2 and/or of Portland cement; E. 0.02 to 0.8 of Li 2 CO 3 ; F. and at least one alkalifying reagent consisting of at least one alkali metal carbonate and/or bicarbonate, different from E; G. 30 to 80, preferably from 40 to 70, of at least one type of aggregates; H. 1 to 10 of at least one redispersible polymer; I. 0.01 to 5 of at least one thickener; J. 0.01 to 0.5 of at least retarder. 8 . An activating system for a hydraulic binder for mortars, wherein it comprises (in % by dry weight): C. 60 to 93 of at least one source of sulfate ions; D. 5 to 25 of Ca(OH) 2 and/or of Portland cement; E. 1 to 3 of Li 2 CO 3 ; F. at least one alkali metal carbonate and/or bicarbonate, different from E; and in that the binder comprises (in % by dry weight): A. 60 to 99 of at least one ground and granulated blast-furnace slag; B. 40 to 1 of at least one calcium aluminate cement and/or at least one calcium sulfoaluminate cement. 9 . A method comprising applying the binder according to claim 1 in a dry mortar composition or wet mortar formulation. 10 . A method comprising applying an activating system comprising (in % by dry weight): C. 60 to 93 of at least one source of sulfate ions; D. 5 to 25 of Ca(OH) 2 and/or of Portland cement; E. 0.5 to 5 of Li 2 CO 3 ; F. at least one alkali metal carbonate and/or bicarbonate, different from E; to a hydraulic binder for a mortar for activating the hydraulic binder, the binder comprising (in % by dry weight): A. 60 to 99 of at least one ground and granulated blast-furnace slag; B. 40 to 1 of at least one calcium aluminate cement and/or at least one calcium sulfoaluminate cement; wherein C is employed in an amount sufficient to allow the sulfate ions of C to react with B and with A.