System and method for improved visual detection of protective coatings

The invention claimed is: 1. A protective coating for a substrate, comprising: a substantially transparent coating matrix; and a plurality of reflective particles embedded in the substantially transparent coating matrix forming a substantially transparent coating, wherein the reflective particles are arranged having a substantially homogeneous distribution within the coating matrix, wherein the plurality of reflective particles in the coating matrix produce a reflected light contrast that varies directly with a thickness of the substantially transparent coating when applied to a substrate, and wherein a concentration of the plurality of reflective particles within the coating matrix is selected to enable a thickness range of the coating matrix to be calculated based on the reflected light contrast, wherein a square inch of the coating matrix that is 10 to 50 microns thick includes 10 to 30 of the plurality of reflective particles. 2. The protective coating of claim 1 , wherein the protective coating comprises a corrosion inhibiting compound. 3. The protective coating of claim 1 , wherein the protective coating comprises an organic compound. 4. The protective coating of claim 1 , wherein the reflective particles are formed from one or more selections from a group consisting of: mica, metallic flakes, glass, and marble. 5. The protective coating of claim 1 , wherein the reflective particles comprise one or more selections from a group consisting of: metal effect pigments, pearl luster pigments, interference pigments, holographic effect pigments, interference pigments, pearlescent pigments, iridescent pigments, luminescent pigments, fluorescent pigments, and phosphorescent pigments. 6. The protective coating of claim 1 , wherein the protective coating is a thin film protective coating. 7. The protective coating of claim 1 , wherein the concentration of the plurality of reflective particles is further selected to correlate a range of contrast values that includes 10% to 50% to the thickness range, wherein the thickness range includes 10 microns to 50 microns. 8. A protective coating for a substrate, comprising: a plurality of reflective particles, substantially homogeneously distributed within a substantially transparent coating matrix forming a substantially transparent coating, wherein the plurality of reflective particles in the coating matrix produce a reflected light contrast that varies directly with a thickness of the substantially transparent coating when applied to a substrate, and wherein a concentration of the plurality of reflective particles within the coating matrix is selected to enable a thickness range of the coating matrix to be calculated based on the reflected light contrast, wherein a square inch of the coating matrix that is 10 to 50 microns thick includes 10 to 30 of the plurality of reflective particles. 9. The protective coating of claim 8 , wherein the protective coating comprises a corrosion inhibiting compound. 10. The protective coating of claim 8 , wherein the protective coating comprises an organic compound. 11. The protective coating of claim 8 , wherein the reflective particles are selected from the group consisting of: reflective pigment particles, light emitting particles, and black pigment particles. 12. The protective coating of claim 8 , wherein the reflective particles are selected from the group consisting of: mica, metallic flakes, glass, and marble. 13. The protective coating of claim 8 , wherein the reflective particles are selected from the group consisting of: metal effect pigments, pearl luster pigments, interference pigments, holographic effect pigments, interference pigments, pearlescent pigments, iridescent pigments, luminescent pigments, fluorescent pigments, and phosphorescent pigments. 14. The protective coating of claim 8 , wherein the protective coating is a thin film protective coating. 15. A system comprising: a substrate; a protective coating applied to the substrate, the protective coating comprising a plurality of reflective particles embedded in a substantially transparent coating matrix forming a substantially transparent coating, wherein the reflective particles are arranged having a substantially homogeneous distribution within the coating matrix, wherein the plurality of reflective particles in the coating matrix produce a reflected light contrast that varies directly with a thickness of the substantially transparent coating, and wherein a concentration of the plurality of reflective particles within the coating matrix is selected to enable a thickness range of the coating matrix to be calculated based on the reflected light contrast, wherein a square inch of the coating matrix that is 10 to 50 microns thick includes 10 to 30 of the plurality of reflective particles. 16. The system of claim 15 , wherein the substrate comprises a metallic surface. 17. The system of claim 15 , wherein the substrate comprises a composite surface. 18. The system of claim 15 , wherein the substrate comprises the surface of an aircraft component.