Multi-component mortar system

The invention claimed is: 1. A process for printing a 3D structure comprising the steps of providing a multi-component mortar system comprising a component A and a component B, wherein the component A comprises 10 to 50 weight-% aluminous cement and 30 to 78 weight-% mineral filler, based on the weight of component A, at least one set inhibitor, and water, and the component B comprises an initiator system for the set-inhibited aluminous cement, 65 to 86 weight-% mineral filler, based on the weight of component B, and water; mixing the components with a static or dynamic mixer and applying the mixed mortar with a robotic system to form a 3D structure; and curing of the applied 3D structure. 2. The process for printing a 3D structure according to claim 1 , wherein the component A is free of boric acid or a salt thereof. 3. The process for printing a 3D structure according to claim 1 , wherein the component A comprises at least a phosphate-based set inhibitor. 4. The process for printing a 3D structure according to claim 1 , wherein the initiator system in component B comprises an alkaline compound selected from the group consisting of alkali hydroxide, earth alkali hydroxide, earth alkali oxides, alkali oxides, alkali silicate, alkali aluminate, amines and mixtures thereof. 5. The process for printing a 3D structure according to claim 1 , wherein the mineral filler is selected from materials of the group consisting of calcium carbonate, dolomite, titanium dioxide, silicon dioxide, fly ash, slag, river sand, sand from sediments and crushed stone and mixtures thereof. 6. The process for printing a 3D structure according to claim 1 , wherein 85 weight-% of the particles of the mineral filler in the component A and the component B are smaller than 0.3 mm. 7. The process for printing a 3D structure according to claim 1 , wherein the consistency of the component A and the component B, each separately, is paste-like with a plastic viscosity in the range of 20 to 2,000 Pa's measured with a plate-plate rheometer with plate diameter of 25 mm, 2 mm gap at a shear rate of 1 s −1 . 8. The process for printing a 3D structure according to claim 1 , wherein the component A and the component B and further components, if present, are each packed in separate containers, stored, and mixed immediately before application to produce a fast setting mortar. 9. The process for printing a 3D structure according to claim 1 , wherein the content of aluminous cement in the fresh mortar, calculated as non-hydrated aluminous cement, is from 5 to 45 weight-% based on the weight of the fresh mortar.