Rotor for a fluid pump and method and mold for the production thereof

The invention claimed is: 1 . A rotor for a compressible fluid pump which can be introduced through a blood vessel into a patient's body, the rotor comprising: one or more impeller elements, wherein the rotor is configured to be radially compressed and expanded between a compressed state and an expanded state, the rotor further comprising, at least in part, a plastic material reinforced by strand-like or film-like reinforcement elements arranged in a matrix of the plastic material, wherein the rotor is intended to rotate about an axis of rotation, wherein the rotor is tensioned in the compressed state and is free from external stresses in the expanded state, and wherein an operating state exists, which the rotor assumes while operating under a load, wherein the reinforcement elements in the rotor in the operating state are subjected to a tensile stress but resist stretching in a longitudinal direction, wherein the matrix of the plastic material comprises an irregularly cross-linked plastic material, and wherein the irregularly cross-linked plastic material comprises a different cross-linking on one side of the one or more impeller elements subjected to the load than a cross-linking on another side of the one or more impeller elements not subjected to the load. 2 . The rotor of claim 1 , wherein the load is the load of a conveyed liquid and the tensile stress is produced by the load. 3 . The rotor of claim 2 , wherein the matrix of the plastic material is treated such that the plastic material is lengthened on a side of the one or more impeller elements subject to the load and shortened on an opposite side of the one or more impeller elements. 4 . The rotor of claim 1 , wherein the irregularly cross-linked plastic material is more heavily cross-linked on the side of the one or more impeller elements not subjected to the load. 5 . The rotor of claim 1 , wherein at least 30% of the reinforcement elements in the matrix of the plastic material resist stretching in the longitudinal direction when the rotor is operating under the load. 6 . The rotor of claim 1 , wherein at least 50% of the reinforcement elements in the matrix of the plastic material resist stretching in the longitudinal direction when the rotor is operating under the load. 7 . The rotor of claim 1 , wherein at least 70% of the reinforcement elements in the matrix of the plastic material resist stretching in the longitudinal direction when the rotor is operating under the load. 8 . The rotor of claim 1 , wherein a diameter of the reinforcement elements is not greater than about 40 μm. 9 . The rotor of claim 1 , wherein the reinforcement elements are film-like elements. 10 . The rotor of claim 1 , wherein the one or more impeller elements have a neutral plane. 11 . The rotor of claim 10 , wherein the strand-like reinforcement elements in the rotor that resist stretching in the longitudinal direction are not positioned in the neutral plane of the one or more impeller elements. 12 . A rotor for a compressible fluid pump which can be introduced through a blood vessel into a patient's body, the rotor comprising: one or more impeller elements, wherein the rotor is configured to be radially compressed and expanded between a compressed state and an expanded state, the rotor further comprising, at least in part, a plastic material reinforced by film-like reinforcement elements arranged in a matrix of the plastic material, wherein the rotor is intended to rotate about an axis of rotation, wherein the rotor is tensioned in the compressed state and is free from external stresses in the expanded state, and wherein an operating state exists, which the rotor assumes while operating under a load, wherein the reinforcement elements in the rotor in the operating state are subjected to a tensile stress but resist stretching in a longitudinal direction, and wherein the film-like elements have a length and a width and the length is at least three times greater than a width of the film-like elements. 13 . The rotor of claim 12 , wherein the film-like elements comprise glass, carbon, polycarbonate or metal. 14 . The rotor of claim 13 , wherein the metal is one of aluminum, silver, titanium, nitinol, or gold. 15 . A rotor for a compressible fluid pump which can be introduced through a blood vessel into a patient's body, the rotor comprising: one or more impeller elements, wherein the rotor is configured to be radially compressed and expanded between a compressed state and an expanded state, the rotor further comprising, at least in part, a plastic material reinforced by strand-like or film-like reinforcement elements arranged in a matrix of the plastic material, wherein the rotor is intended to rotate about an axis of rotation, wherein the rotor is tensioned in the compressed state and is free from external stresses in the expanded state, and wherein an operating state exists, which the rotor assumes while operating under a load, wherein the reinforcement elements in the rotor in the operating state are subjected to a tensile stress but resist stretching in a longitudinal direction, wherein the one or more impeller elements have a neutral plane, and wherein a portion of the strand-like reinforcement elements in the rotor that resist stretching in the longitudinal direction are positioned outside the neutral plane of the one or more impeller elements.