Double cutting disc with curved deformation lines

The invention claimed is: 1. A rotary cutting disc comprising: two coaxial mutually opposed disc-shaped elements each having a circumferential edge, wherein the circumferential edges of the disc-shaped elements are bonded together forming a single cutting edge of the cutting disc, wherein the disc-shaped elements are directly in contact with each other at the cutting edge, such that the disc-shaped elements are joined to form the rotary cutting disc as a single cutting disc having a space between the disc-shaped elements, and wherein the cutting edge of the cutting disc is provided by a connection between the disc-shaped elements; wherein each of the disc-shaped elements comprises one or more at least partly curved elongated deformation lines, wherein the one or more deformation lines have a radial distance measured from the center of the cutting disc that increases along at least a part of a length of the deformation line, wherein the deformation lines, when expressed in polar coordinates, cover an angular range between 1° and 720° along the length of the deformation lines. 2. The rotary cutting disc according to claim 1 , wherein the space contains a vacuum. 3. The rotary cutting disc according to claim 1 , wherein the space is filled with a fluid. 4. The rotary cutting disc according to claim 1 , wherein the space is filled with a damping material with viscoelastic properties. 5. The rotary cutting disc according to claim 1 , wherein the disc-shaped elements are separated by a separating element located in the space. 6. The rotary cutting disc according to claim 1 , wherein the disc-shaped elements are configured such that the disc-shaped elements have a lens-shaped geometry, wherein a distance between the disc-shaped elements increases at least in part along the radial direction from the cutting edge towards the center of the cutting disc. 7. The rotary cutting disc according to claim 1 , wherein the one or more deformation lines formed on one of the disc-shaped elements and the one or more deformation lines formed on the other one of the disc-shaped elements are arranged in an overlaying configuration, such that the one or more deformation lines formed on one of the disc-shaped elements and the one or more deformation lines formed on the other one of the disc-shaped elements are mirror images of each other. 8. The rotary cutting disc according to claim 1 , wherein a pattern of the one or more deformation lines on one of the disc-shaped elements is a mirror image of a pattern of the one or more deformation lines on the other one of the disc-shaped elements, and wherein the pattern of the one or more deformation lines on said one of the disc-shaped elements is offset with respect to the pattern of the one or more deformation lines on said other one of the disc-shaped elements by a predefined angle. 9. The rotary cutting disc according to claim 1 , wherein the one or more deformation lines are formed on an outer surface of the disc-shaped element not facing the opposed disc-shaped element. 10. The rotary cutting disc according to claim 1 , wherein said radial distance of the one or more deformation lines increases monotonically along the length of the deformation line. 11. The rotary cutting disc according to claim 1 , wherein the deformation lines extend from a first end to a second end, said first end being located at an innermost edge of the disc-shaped elements, or within a distance from said innermost edge that is less than 15% of the diameter of the respective disc-shaped element. 12. The rotary cutting disc according to claim 11 , wherein the second end of the deformation lines is located at the cutting edge of the cutting disc, or within a distance from said cutting edge that is less than 15% of the diameter of the respective disc-shaped element. 13. The rotary cutting disc according to claim 1 , wherein the two disc-shaped elements are welded or glued together. 14. The rotary cutting disc according to claim 1 , wherein each of the disc-shaped elements comprises at least 4 deformation lines. 15. The rotary cutting disc according to claim 1 , wherein the value of the angle coordinates increases or decreases monotonically along the length of the deformation line. 16. The rotary cutting disc according to claim 15 , wherein the deformation lines, when expressed in the polar coordinates, cover an angular range between 10° and 90° along the length of the deformation lines, wherein the value of the angle coordinates increases or decreases monotonically along the length of the deformation line. 17. The rotary cutting disc according to claim 1 , wherein the deformation lines have the shape of a section of a circle having a center located at a radial distance measured from the center of the rotary cutting disc corresponding to 35% to 65%, of the radius of the rotary cutting disc. 18. The rotary cutting disc according to claim 1 , wherein the one or more at least partly curved elongated deformation lines have a width at least 10 times smaller than a length thereof. 19. A rotary cutting disc comprising: two coaxial mutually opposed disc-shaped elements each having a circumferential edge, wherein the circumferential edges of the disc-shaped elements are bonded together forming a single cutting edge of the cutting disc; wherein the each of the disc-shaped elements comprises one or more at least partly curved elongated deformation lines, wherein the one or more deformation lines have a radial distance measured from the center of the cutting disc that increases along at least a part of the length of the deformation line, wherein the deformation lines, when expressed in polar coordinates, cover an angular range between 10° and 90° along the length of the deformation lines, wherein the disc-shaped elements are separated by a separating element, and wherein one or both of the separating element and the disc-shaped elements is/are configured such that the disc-shaped elements have a lens-shaped geometry, wherein the distance between the disc-shaped elements increases at least in part along the radial direction from the cutting edge towards the center of the cutting disc. 20. The rotary cutting disc of claim 1 , wherein the one or more deformation lines have a radial distance from the center of the cutting disc that increases monotonically along the length of the deformation line, wherein the one or more deformation lines formed on one of the disc-shaped elements and the one or more deformation lines formed on the other one of the disc-shaped elements are arranged in an overlaying configuration, such that the one or more deformation lines formed on one of the disc-shaped elements and the one or more deformation lines formed on the other one of the disc-shaped elements are mirror images of each other. 21. The rotary cutting disc according to claim 19 , wherein the deformation lines, when expressed in the polar coordinates, cover said angular range between 10° and 90° along their length between a first end and a second end of the deformation line, said first end being located at an innermost edge of the disc-shaped elements, or within a distance from said innermost edge that is less than 15% of the diameter of the respective disc-shaped element and the second end of the deformation lines is located at the cutting edge of the cutting disc, or within a distance from said cutting edge that is less than 15% of the diameter of the respective disc-shaped element.