Methods and materials for printing 3-dimensional structures with low density and high compressive strength

1 . A method of printing a 3-dimensional object, the method comprising the steps of a) mixing a dry cementitious composition with water, b) conveying the mixture obtained under a) to a print head, c) applying the mixture obtained under a) from the print head to form a 3-dimensional object, d) curing the 3-dimensional object obtained in step c), wherein the dry cementitious composition comprises (in each case relative to the total dry weight of the composition) i) 20-75 w % of a cementitious binder which itself comprises ia) at least one cement, ib) at least one type of slag and/or calcined clay, and ic) optionally at least one activator for said slag, ii) 5-50 w % of at least two lightweight aggregates of different particle size, iii) optionally further aggregates and/or fillers, and iv) optionally further additives. 2 . A method according to claim 1 , wherein in step c) the mixture obtained under a) is applied layer-by-layer from the print head to form a 3-dimensional object. 3 . A method according to claim 1 , wherein in step c) the mixture obtained under a) is applied into a mold to form a 3-dimensional object. 4 . A method according to claim 1 , wherein an additional additive is admixed during conveying or in the print head. 5 . A method according to claim 1 , wherein the at least one cement is selected from Portland cement of the type CEM I, CEM II, or CEM IV according to standard EN 197-1, calcium aluminate cement according to standard EN 14647:2006-01, calcium sulfoaluminate cement, puzzolane, latent hydraulic binder, or mixtures thereof, with the exception of CEM II/A-S or CEM II/B-S. 6 . A method according to claim 5 , wherein the at least one cementitious binder comprises Portland cement and slag in a weight ratio of Portland cement to slag of 1:2 or higher. 7 . A method according to claim 1 , wherein the dry cementitious composition comprises two or three lightweight aggregates of different particle size. 8 . A method according to claim 1 , wherein the lightweight aggregates comprise or consist of glass particles, wood particles, cork, rubber particles, layered particles, plastic particles, volcanic rock such as pumice, and/or expanded slate. 9 . A method according to claim 1 , wherein the dry cementitious composition comprises two types of lightweight aggregate, whereby a first type of lightweight aggregate has a particle size of 1-300 μm and a second type of lightweight aggregate has a particle size of 250-500 μm. 10 . A method according to claim 1 , wherein the dry cementitious composition comprises three types of glass particles as lightweight aggregate, whereby a first type of glass particles has a particle size of 1-300 μm, a second type of glass particles has a particle size of 250-500 μm, and a third type of glass particles has a particle size of 500-1000 μm. 11 . A method according to claim 1 , wherein about one third of the lightweight aggregate present in the dry cementitious composition have a particle size of below 200 μm, about one third of the lightweight aggregate present in the dry cementitious composition have a particle size of between 200-500 μm, and about one third of the lightweight aggregate present in the dry cementitious composition have a particle size of more than 500 μm. 12 . A dry cementitious composition comprising (in each case relative to the total dry weight of the composition): ia) 15-30 w % of Portland cement, ib) 3-7 w % of calcium aluminate cement and/or calcium sulfoaluminate cement, ic) 15-35 w % of slag and/or calcined clay ii) 10-33 w % of at least two lightweight aggregates of different particle size, iii) 5-30 w % of further aggregates and/or fillers, iv) 1-2 w % of further additives. 13 . A method of applying a dry cementitious composition comprising (in each case relative to the total dry weight of the composition): ia) 15-30 w % of Portland cement, ib) 3-7 w % of calcium aluminate cement and/or calcium sulfoaluminate cement, ic) 15-35 w % of slag and/or calcined clay ii) 10-33 w % of at least two lightweight aggregates of different particle size, iii) 5-30 w % of further aggregates and/or fillers, iv) 1-2 w % of further additives; in a method according to claim 1 . 14 . A 3-dimensional object obtained by a method as claimed in claim 1 . 15 . A 3-dimensional object as claimed in claim 14 , wherein it is a thermal and/or acoustic insulation panel or forms part of a thermal and/or acoustic insulation system. 16 . A 3-dimensional object as claimed in claim 14 , wherein it is used as infill for structures.