Steel fibre for reinforcing concrete or mortar having an anchorage end with at least two bent sections

The invention claimed is: 1. A steel fibre configured to reinforce concrete or mortar, said steel fibre comprising: a straight middle portion and an anchorage end at one or both ends of said middle portion, said middle portion having a main axis, said anchorage end configured to deflect from said main axis of said middle portion in a deflection section, said anchorage end having n bent sections, with n being equal or larger than 2, said steel fibre configured in a way such that when said steel fibre is in a stable position on a horizontal surface, said steel fibre defines a vertical projection on said horizontal surface, wherein in said vertical projection on said horizontal surface, the vertical projections of all of said n bent sections of said anchorage end are located at one side of the vertical projection of said main axis. 2. The steel fibre according to claim 1 , wherein in said vertical projection on said horizontal surface, the vertical projection of none of said n bent sections is located on the vertical projection of said main axis or on the vertical projection of a line extending from said main axis. 3. The steel fibre according to claim 1 , wherein said middle portion of said steel fibre has a tensile strength R m of at least 1000 MPa. 4. The steel fibre according to claim 1 , wherein said middle portion has an elongation at maximum load A g+e of at least 2.5%. 5. The steel fibre according to claim 1 , wherein said steel fibre is in a stress-relieved state. 6. The steel fibre according to claim 1 , wherein said middle portion of said steel fibre is provided with at least one flattened section. 7. The steel fibre according to claim 1 , wherein said middle portion of said steel fibre has a diameter D ranging from 0.1 mm to 1.20 mm. 8. The steel fibre according to claim 1 , wherein said steel fibre has a length to diameter ratio L/D ranging from 40 to 100. 9. A concrete structure reinforced with steel fibres according to claim 1 . 10. The concrete structure according to claim 9 , wherein the ratio residual flexural tensile strength f R,3 divided by residual flexural tensile strength f R,i (f R,3 / f R,3 ) is higher than 1 with a dosage of said steel fibres of less than 1 vol%. 11. The concrete structure according to claim 9 , wherein the residual flexural tensile strength f R,3 is higher than 5 or even higher than 6 with a dosage of said steel fibres of less than 1 vol %. 12. A method of using the steel fibre according to claim 1 for a load carrying structure of concrete by placing the steel fibre in the load carrying structure.