Curable film-forming compositions containing lithium silicates as corrosion inhibitors and multilayer coated metal substrates

We claim: 1. A curable film-forming composition comprising: (1) a thermosetting, organic film-forming binder component comprising: (a) a resin component comprising a diglycidyl ether of Bisphenol A; and (b) a curing agent component comprising a polyamine and a polyamide, wherein the curing agent is present in an amount of 33 to 46 percent by weight, based on the total weight of resin solids in the composition; and (2) a corrosion inhibiting component comprising a lithium silicate, present in the curable film-forming composition in an amount of 0.8 to 3.5 percent lithium by weight, based on the total weight of resin solids in the curable film-forming composition, wherein the lithium silicate comprises lithium orthosilicate and/or lithium metasilicate. 2. The composition of claim 1 wherein the corrosion inhibiting component (2) further comprises magnesium oxide and/or an azole. 3. The composition of claim 1 , wherein the curable film-forming composition is a primer composition. 4. The composition of claim 1 , wherein the lithium orthosilicate is present. 5. The composition of claim 1 , wherein the composition is a solventborne composition. 6. A metal substrate at least partially coated with a curable film-forming composition, wherein the curable film-forming composition comprises: (1) a thermosetting, organic film-forming binder component comprising: (a) a resin component comprising a diglycidyl ether of Bisphenol A; and (b) a curing agent component comprising a polyamine and a polyamide, wherein the curing agent is present in an amount of 33 to 46 percent by weight, based on the total weight of resin solids in the composition; and (2) a corrosion inhibiting component comprising a lithium silicate, present in the curable film-forming composition in an amount of 0.8 to 3.5 percent lithium by weight, based on the total weight of resin solids in the curable film-forming composition, wherein the lithium silicate comprises lithium orthosilicate and/or lithium metasilicate. 7. The coated metal substrate of claim 6 , wherein the curable film-forming composition is applied directly to the metal substrate and there is no intermediate coating between the substrate and the curable film-forming composition. 8. The coated metal substrate of claim 6 , wherein the metal substrate comprises aluminum. 9. The coated metal substrate of claim 6 , wherein the metal substrate is an aircraft part. 10. The coated metal substrate of claim 6 , further comprising an additional coating layer applied on top of at least a portion of the curable film-forming composition. 11. The coated metal substrate of claim 10 , wherein the additional coating layer comprises a fluoropolymer and/or a polyurethane polymer. 12. The coated metal substrate of claim 10 , wherein the additional coating layer comprises a corrosion inhibiting component comprising a lithium silicate, magnesium oxide and/or an azole. 13. A multilayer coated metal substrate comprising: (a) a metal substrate; (b) a curable film-forming composition applied to said metal substrate, wherein the curable film-forming composition comprises: (1) a thermosetting, organic film-forming binder component comprising: (a) a resin component comprising a diglycidyl ether of Bisphenol A; and (b) a curing agent component comprising a polyamine and a polyamide, wherein the curing agent is present in an amount of 33 to 46 percent by weight, based on the total weight of resin solids in the composition; and (2) a corrosion inhibiting component comprising a lithium silicate, present in the curable film-forming composition in an amount of 0.8 to 3.5 percent lithium by weight, based on the total weight of resin solids in the curable film-forming composition; and (c) an additional coating layer applied on top of at least a portion of the curable film-forming composition, wherein the lithium silicate comprises lithium orthosilicate and/or lithium metasilicate. 14. The multilayer coated metal substrate of claim 13 , wherein the metal substrate (a) comprises aluminum. 15. The multilayer coated metal substrate of claim 14 , wherein the metal substrate (a) is an aircraft part. 16. The multilayer coated metal substrate of claim 13 , wherein the curable film-forming composition (b) is applied directly to the metal substrate and there is no intermediate coating between the substrate and the curable film-forming composition. 17. The multilayer coated metal substrate of claim 13 , wherein the corrosion inhibiting component (2) further comprises magnesium oxide an/or an azole. 18. The multilayer coated metal substrate of claim 13 , wherein the additional coating layer (c) comprises a corrosion inhibiting component comprising a lithium silicate, magnesium oxide, and/or an azole. 19. The multilayer coated metal substrate of claim 13 , wherein the additional coating layer (c) comprises a fluoropolymer and/or a polyurethane polymer. 20. A multilayer coated metal substrate comprising: (a) a metal substrate; (b) a first curable film-forming composition applied to said metal substrate, wherein the first curable film-forming composition comprises: (1) a curable, organic film-forming binder component; and (2) a corrosion inhibiting component; and (c) a second curable film-forming composition applied on top of at least a portion of the first curable film-forming composition; wherein the second curable film-forming composition comprises: (1) a curable, organic film-forming binder component that is the same as or different from the curable, organic film-forming binder component in the first curable film-forming composition; and (2) a corrosion inhibiting component that is the same as or different from the corrosion inhibiting component in the first curable film-forming composition; and wherein the corrosion inhibiting component (2) in each of the first and second curable film-forming compositions independently comprises (i) a lithium compound comprising lithium silicate and/or a lithium salt; (ii) magnesium oxide and/or (iii) an azole, and at least one of the first curable film-forming composition and second curable film-forming composition comprises the curable film-forming composition of claim 1 . 21. The multilayer coated metal substrate of claim 20 , wherein each of the lithium compound, magnesium oxide, and azole are present. 22. The multilayer coated metal substrate of claim 20 , further comprising (d) an additional film-forming composition applied on top of at least a portion of the second curable film-forming composition (c).