Process for separating the components of hardened concrete waste for producing recycled cement

1 . Process of separating the components of hardened concrete waste to obtain a recycled cement with the said concrete resulting from construction and demolition waste characterised by comprising the following steps: a) carrying out at least one stage of crushing the hardened concrete waste until a material is obtained whose size is close to the maximum size of the aggregates constituting the concrete waste, between 20-32 mm; b) screening the crushed material resulting from step a) with separation of material smaller than 1 mm; c) fragmenting the material larger than 1 mm resulting from step b) until at least 90% of the material smaller than 1 mm is obtained; d) screening the material resulting from step c) less than 1 mm in size in granulometric fractions between 150 μm and 1 mm; e) high intensity magnetic separation of material larger than 150 μm by at least one pass through the magnetic separator; f) grinding the cementitious fraction resulting from the magnetic separation of the previous step to a size that enables its efficient thermoactivation; g) thermoactivation of the material obtained in the previous steps to obtain recycled cement. 2 . Separation process according to the preceding claim characterised in that the material in step c) is fragmented by mechanical treatment through at least one cycle of grinding until a yield of more than 90% of the material smaller than 1 mm is achieved. 3 . Separation process according to claim 1 characterised in that the material in step c) is fragmented by means of a heat treatment, such that after cooling, the material subjected to the heat treatment is subjected to at least one grinding cycle. 4 . Separation process according to claim 3 characterised in that the heat treatment takes place at about 400° C. for 2 hours and the grinding is autogenous and carried out in a horizontal axis mill for about 30 minutes. 5 . Separation process according to claim 1 characterised in that the material screened in step d) is subjected to a further wet screening cycle followed by drying. 6 . Separation process according to claim 1 characterised in that the material resulting from the screening of step d) is magnetically separated by means of a high intensity magnetic separator. 7 . Separation process according to claim 1 characterised in that after at least one step of crushing the concrete waste according to step a), magnetic separation of ceramic waste with paramagnetic characteristics occurs. 8 . Separation process according to claim 1 characterised in that the screened material resulting from the fragmentation in step c) is subjected to magnetic separation of ceramic residues by at least one pass through the magnetic separator. 9 . Separation process according to claim 1 characterised in that the magnetic separation is performed dry using permanent rolls ( 4 ) made from rare-earth magnets. 10 . Separation process according to claim 9 characterised in that the permanent roll ( 4 ) are sequentially arranged and comprise discs or rings of permanent magnets interrupted at intervals with steel discs, the rings being positioned with faces of the same polarity side by side. 11 . Separation process according to claim 9 characterised in that the diameter of the permanent rolls ( 4 ) is greater than 76 mm, preferably 300 mm. 12 . Separation process according to claim 9 characterised in that the magnetic separation is performed through a conveyor screen ( 3 ) with a thickness of less than 1-2 mm and with a minimum thickness of 0.12 mm. 13 . Separation process according to claim 9 characterised in that the rare-earth magnets are made of Neodymium-iron-boron. 14 . Separation process according to claim 1 claim characterised in that the crushing of the concrete is performed in a jaw crusher, in cone crushers or by other mechanical means of release. 15 . Separation process according to claim 1 characterised in that the magnetic separation in step e) is performed by induced rollers, by high intensity and gradient wet magnetic separators or by other means of magnetic separation. 16 . Recycled cement obtained by the process described in claim 1 characterised by having a potential mechanical strength that can be similar to that of ordinary cements of strength class 32.5.