Chromate-free ceramic coating compositions

The invention claimed is: 1. Aqueous slurries compositions for the production of a multilayer coating system on a substrate comprising: a basecoat slurry, comprising: a binder comprising an aqueous solution of lithium doped potassium silicate, the binder characterized by an absence of chromium; and an aluminum or aluminum alloy powder incorporated into the binder, wherein the aluminum or the aluminum alloy powder and the binder are contained as a one-part composition; wherein the aluminum or aluminum alloy powder comprises a particle size distribution characterized in that the 50 th percentile of the particle size distribution has a diameter of between about 4 to 7 microns and the 90 th percentile of the particle size distribution has a diameter of less than or equal to about 11.5-15.5 microns; and a topcoat slurry wherein said topcoat slurry comprises an aqueous solution of an aluminum phosphate based binder having a molar ratio of Al:PO 4 of higher than about 1:3. 2. The aqueous slurries compositions for the production of a multilayer coating system of claim 1 , wherein said topcoat slurry has molar ratio of Al:PO 4 in the range from about 1:2.2 to about 1:2.8. 3. The aqueous slurries compositions for the production of a multilayer coating system of claim 1 , wherein said topcoat slurry has molar ratio of Al:PO 4 in the range from about 1:2.4 to about 1:2.7. 4. The aqueous slurries compositions for the production of a multilayer coating system of claim 1 , wherein said aluminum phosphate based binder comprises aluminum dihydrogen phosphate. 5. The aqueous slurries compositions for the production of a multilayer coating system of claim 1 , wherein said topcoat slurry further comprises metallic oxide particles. 6. The aqueous slurries compositions for the production of a multilayer coating system of claim 1 , wherein said basecoat slurry contains the lithium doped potassium silicate and aluminum or aluminum alloy powder in a weight ratio of about 0.18:1 to 0.46:1 silicate to aluminum or aluminum alloy powder. 7. The aqueous slurries compositions for the production of a multilayer coating system of claim 1 , wherein said basecoat slurry contains aluminum or aluminum alloy powder between about 35-45 weight percent (wt %) based on the total weight of the slurry and the silicate to aluminum is contained in a ratio of about 0.22:1 to 0.37:1 by weight. 8. Aqueous slurries compositions for the production of a multilayer coating system on a substrate comprising: a basecoat slurry, comprising: a binder comprising an aqueous solution of lithium doped potassium silicate, the binder characterized by an absence of chromium; and an aluminum or aluminum alloy powder incorporated into the binder, wherein the aluminum or the aluminum alloy powder and the binder are contained as a one-part composition; wherein the aluminum or aluminum alloy powder content in the slurry is between about 30-50 weight percent (wt %) based on the total weight of the slurry and further comprises a particle size distribution characterized in that the 50 th percentile of the particle size distribution has a diameter of between about 3.9 to 4.5 microns and the 90 th percentile of the particle size distribution has a diameter of less than or equal to about 9.0 microns and a topcoat slurry , wherein said topcoat slurry comprises an aqueous solution of an aluminum phosphate based binder having a molar ratio of Al:PO 4 of higher than about 1:3. 9. The aqueous slurries compositions for the production of a multilayer coating system of claim 8 , wherein said topcoat slurry has molar ratio of Al:PO 4 in the range from about 1:2.2 to about 1:2.8. 10. The aqueous slurries compositions for the production of a multilayer coating system of claim 8 , wherein said topcoat slurry has molar ratio of Al:PO 4 in the range from about 1:2.4 to about 1:2.7. 11. The aqueous slurries compositions for the production of a multilayer coating system of claim 8 , wherein said aluminum phosphate based binder comprises aluminum dihydrogen phosphate. 12. The aqueous slurries compositions for the production of a multilayer coating system of claim 8 , wherein said topcoat slurry further comprises metallic oxide particles. 13. The aqueous slurries compositions for the production of a multilayer coating system of claim 8 , wherein said basecoat slurry contains the lithium doped potassium silicate and aluminum or aluminum alloy powder in a weight ratio of about 0.18:1 to 0.46:1 silicate to aluminum or aluminum alloy powder. 14. The aqueous slurries composition for the production of a multilayer coating of claim 8 , wherein said basecoat slurry contains aluminum or aluminum alloy powder between about 35-45 weight percent (wt %) based on the total weight of the slurry and the silicate to aluminum is contained in a ratio of about 0.22:1 to 0.37:1 by weight. 15. Aqueous slurries compositions for the production of a multilayer coating system on a substrate, comprising: a basecoat slurry, comprising: a binder comprising an aqueous solution of lithium doped potassium silicate, the binder characterized by an absence of chromium; and an aluminum or aluminum alloy powder incorporated into the binder, wherein the aluminum or the aluminum alloy powder and the binder are contained as a one-part composition; wherein the lithium-doped potassium silicate comprises potassium and lithium in a ratio of about 3:1 to 20:1 by weight as K 2 O:Li 2 O, and further wherein the ratio of silicate to potassium is in a ratio of about 2:1 to 3:1 by weight as SiO 2 :K 2 O; and a topcoat slurry , wherein said topcoat slurry comprises an aqueous solution of an aluminum phosphate based binder having a molar ratio of Al:PO 4 of higher than about 1:3. 16. The aqueous slurries compositions for the production of a multilayer coating system of claim 15 , wherein said topcoat slurry has molar ratio of Al:PO 4 in the range from about 1:2.2 to about 1:2.8. 17. The aqueous slurries compositions for the production of a multilayer coating system of claim 15 , wherein said topcoat slurry has molar ratio of Al:PO 4 in the range from about 1:2.4 to about 1:2.7. 18. The aqueous slurries compositions for the production of a multilayer coating system of claim 15 , wherein said aluminum phosphate based binder comprises aluminum dihydrogen phosphate. 19. The aqueous slurries composition for the production of a multilayer coating of claim 15 , wherein said topcoat slurry further comprises metallic oxide particles. 20. The aqueous slurries compositions for the production of a multilayer coating system of claim 15 , wherein said basecoat slurry contains the lithium doped potassium silicate and aluminum or aluminum alloy powder in a weight ratio of about 0.18:1 to 0.46:1 silicate to aluminum or aluminum alloy powder. 21. A multilayer coating substrate, comprising: a substrate, a basecoat on said substrate, comprising: a ceramic matrix not containing chromium, said matrix formed by a silicate binder and a plurality of aluminum powder particles embedded within said matrix; wherein said silicate binder is potassium silicate doped with lithium; wherein the aluminum powder comprises a particle size distribution characterized in that the 50 th percentile of the particle size distribution has a diameter of between about 4 to 7 microns and the 90 th percentile of the particle size distribution has a diameter of less than or equal to about 11.5-15.5 microns; and a topcoat on said basecoat comprising a matrix