Erosion and wear protection for composites and plated polymers

What is claimed is: 1. A composite component, comprising: a body portion formed from an organic matrix composite; a first metal coating applied to a surface of the body portion, the first metal coating being formed from aluminum or an aluminum alloy; and an outer metal layer on the first metal coating, wherein the outer metal layer has a nobility in the galvanic series equal to or higher than the organic matrix composite of the body portion. 2. The composite component of claim 1 , wherein the organic matrix composite consists of an organic matrix and reinforcement fibers. 3. The composite component of claim 2 , wherein the outer metal layer is a metal plating layer. 4. The composite component of claim 3 , further comprising a sacrificial layer between the first metal coating and the metal plating layer, the sacrificial layer being formed from a metallic material that is more anodic than a metal composition of the first metal coating. 5. The composite component of claim 4 , wherein the sacrificial layer is formed from zinc. 6. A composite component having a body portion formed from an organic matrix composite, a first metal coating applied to a surface of the body portion, and an outer metal layer on the first metal coating, the composite component being formed by a method comprising: forming the body portion in a desired shape from an organic matrix material and reinforcing fibers; depositing the first metal coating on the surface of the body portion; and forming the outer metal layer on the first metal coating, wherein the outer metal layer has a nobility in the galvanic series equal to or higher than the organic matrix composite of the body portion. 7. The composite component of claim 6 , wherein depositing the first metal coating on the surface of the body portion comprises depositing the first metal coating by a method selected from the group consisting of cathodic arc deposition, ion vapor deposition, physical vapor deposition, and chemical vapor deposition. 8. The composite component of claim 6 , wherein forming the outer metal layer on the first metal coating comprises depositing a metal plating layer by a method selected from the group consisting of electrolytic deposition, electroforming, and electroless deposition. 9. The composite component of claim 8 , wherein the method further comprises depositing a sacrificial layer on a surface of the first metal coating prior to depositing the metal plating layer.