Corrosion resistant bimetal

What is claimed is: 1. A corrosion resistant bimetal, comprising: a part, wherein the part includes a metal component that is susceptible to corrosion; and one or more sacrificial anodes, wherein the sacrificial anodes consist of an attachment to the part through a metallic bond between the metal component and the sacrificial anode to form a crystalline solid that includes the sacrificial anode and the metal component of the part and the sacrificial anode has a higher electronegativity than the metal component of the part. 2. The corrosion resistant bimetal of claim 1 , wherein the sacrificial anode has a change in standard reduction potential between the sacrificial anode and the metal component ranges from about 0.3V to about 3.0V. 3. The corrosion resistant bimetal of claim 1 , wherein the sacrificial anode is a metal selected from the group consisting of magnesium, aluminum, zinc, chromium, iron, copper, steel, and alloys thereof. 4. The corrosion resistant bimetal of claim 1 , wherein the metal component of the part is at least a portion of a mechanical or electrical object. 5. The corrosion resistant bimetal of claim 1 , wherein the metal component of the part is a metal selected from the group consisting of magnesium, aluminum, zinc, chromium, iron, copper, steel, and alloys thereof. 6. The corrosion resistant bimetal of claim 1 , wherein the sacrificial anode is replaceable by adding additional layers of the sacrificial anode over the existing or depleted sacrificial anode or adding the sacrificial anode to another area of the metal component of the part. 7. The corrosion resistant bimetal of claim 3 , wherein the metal of the sacrificial anode and the metal component of the part are substitutional solids and have a difference in atomic radius equal to or less than 15%. 8. The corrosion resistant bimetal of claim 3 , wherein the metal of the sacrificial anode and the metal component of the part have the same valence. 9. The corrosion resistant bimetal of claim 1 , further including one or more intermediate metal layers, wherein the intermediate metal layers are attached to both the metal component of the part on a first side and the sacrificial anode on a second side through metallic bonds. 10. The corrosion resistant bimetal of claim 9 , wherein the intermediate metal layer is a metal that has an atomic radius equal to or less than 15% of both the metal component of the part and the sacrificial anode. 11. The corrosion resistant bimetal of claim 1 , wherein the sacrificial anode has a thickness equal to or greater than 0.05 inches, a cross-sectional diameter equal to or greater than 1 inch, and a length equal to or less than 30 ft. 12. The corrosion resistant bimetal of claim 9 , wherein the part is a smart part with a steel outermost layer, the intermediate layer that is a more highly resistive metal than the steel outermost layer, and a copper innermost layer. 13. The corrosion resistant bimetal of claim 1 , wherein the sacrificial anode is a side layer of the part, an edge layer of the part, a contact surface layer of the part, a plug fill of the part, a strip fill of the part, a ring fill of the part, or a combination thereof.