Disc brake assembly for reducing brake disc corrosion

The invention claimed is: 1. A disc brake assembly for a wheel of a transportation vehicle, the disc brake comprising: a brake disc; and a brake caliper support for holding a brake caliper with friction brake pads, wherein a bimetallic plate is provided on the disc brake assembly, wherein a sacrificial anode is secured on the bimetallic plate, wherein the bimetallic plate adopts at least two positions, depending on a temperature of the bimetallic plate, wherein the sacrificial anode rests at least partially against the brake disc in the first position and the sacrificial anode is at a distance from the brake disc in the second position, and wherein a fixed end of the bimetallic plate is fixed on the brake caliper support. 2. The disc brake assembly of claim 1 , wherein the bimetallic plate is fixed to the assembly at a fixed end on a backing plate of the friction brake pad. 3. The disc brake assembly of claim 1 , wherein the bimetallic plate is fixed to the assembly by riveting, welding or screw fastening. 4. The disc brake assembly of claim 1 , wherein the sacrificial anode is secured on the bimetallic plate by adhesive bonding, clipping, welding or brazing. 5. The disc brake assembly of claim 1 , wherein the sacrificial anode is secured on a free end of the bimetallic plate. 6. The disc brake assembly of claim 1 , wherein the temperature of the sacrificial anode in the first position is lower than the melting temperature of the sacrificial anode. 7. The disc brake assembly of claim 1 , wherein the contact area of the sacrificial anode on the brake disc extends over the entirety of a radial extent of the brake disc. 8. The disc brake assembly of claim 1 , wherein the bimetallic plate and/or the sacrificial anode are/is curved around the axis of rotation of the brake disc. 9. The disc brake assembly of claim 1 , wherein additional bimetallic plates with sacrificial anodes are provided. 10. The disc brake assembly of claim 1 , wherein the bimetallic plate is curved around the axis of rotation of the brake disc so as to be concentric with the brake disc. 11. The disc brake assembly of claim 1 , wherein the bimetallic plate extends away from the fixed end of the bimetallic plate and away from the friction brake pads in a circumferential direction. 12. The disc brake assembly of claim 1 , wherein, in the first position, particles from the sacrificial anode are distributed onto the brake disc via mechanical abrasion so as to reduce brake disc corrosion. 13. The disc brake assembly of claim 1 , wherein the sacrificial anode is comprised of at least one of zinc, sodium, and magnesium. 14. A disc brake assembly for a wheel of a transportation vehicle, the disc brake comprising: a brake disc; and a brake caliper support for holding a brake caliper with friction brake pads, wherein at least one bimetallic plate is provided on the disc brake assembly, wherein a sacrificial anode is secured on the at least one bimetallic plate, wherein the at least one bimetallic plate adopts at least two positions, depending on a temperature of the at least one bimetallic plate, wherein the sacrificial anode rests at least partially against the brake disc in the first position and the sacrificial anode is at a distance from the brake disc in the second position, wherein, in the first position, particles from the sacrificial anode are distributed onto the brake disc via mechanical abrasion so as to reduce brake disc corrosion, and wherein a fixed end of the at least one bimetallic plate is fixed on the brake caliper support and prevented from moving axially with respect to the brake disc, and a free end of the at least one bimetallic plate located on an end of the at least one bimetallic plate opposite the fixed end is free to move axially with respect to the brake disc. 15. The disc brake assembly of claim 14 , wherein the temperature of the sacrificial anode in the first position is lower than the melting temperature of the sacrificial anode. 16. The disc brake assembly of claim 14 , wherein the contact area of the sacrificial anode on the brake disc extends over the entirety of a radial extent of the brake disc. 17. The disc brake assembly of claim 14 , wherein: the at least one bimetallic plate includes a first bimetallic plate and a second bimetallic plate; the first bimetallic plate extends away from the friction brake pads in a clockwise circumferential direction; and the second bimetallic plate extends away from the friction brake pads in a counterclockwise circumferential direction. 18. The disc brake assembly of claim 6 , wherein the temperature of the sacrificial anode in the second position is equal to or greater than the melting temperature of the sacrificial anode.