The present invention provides a new and useful nonstick coating for use on pure aluminum, alloys of aluminum, or aluminized steel surfaces. A nonstick coating according to the present invention includes a ceramic substrate disposed on an aluminum surface and a fluorocarbon polymer coating disposed
The present invention provides a new and useful nonstick coating for use on pure aluminum, alloys of aluminum, or aluminized steel surfaces. A nonstick coating according to the present invention includes a ceramic substrate disposed on an aluminum surface and a fluorocarbon polymer coating disposed on the ceramic substrate. The ceramic substrate, prior to firing, includes at least two layers: a first or bottom layer applied to the aluminum surface including an enamel ground coat; and a second or top layer applied over the enamel ground coat layer including a blend of one or more glass frits, non-ceramic refractory particles, and non-vitreous inorganic oxide particles. Upon firing, the ceramic substrate includes a continuous layer of vitreous enamel that is bonded to the aluminum surface. The exposed surface of the ceramic substrate has a micro-rough texture that is enriched with bonding sides for binder resins used in a fluorocarbon polymer primer layer. The ceramic substrate protects the aluminum surface from corrosion and mechanical damage and also protects the fluorocarbon polymer coating from abrasive wear.
대표청구항▼
The present invention provides a new and useful nonstick coating for use on pure aluminum, alloys of aluminum, or aluminized steel surfaces. A nonstick coating according to the present invention includes a ceramic substrate disposed on an aluminum surface and a fluorocarbon polymer coating disposed
The present invention provides a new and useful nonstick coating for use on pure aluminum, alloys of aluminum, or aluminized steel surfaces. A nonstick coating according to the present invention includes a ceramic substrate disposed on an aluminum surface and a fluorocarbon polymer coating disposed on the ceramic substrate. The ceramic substrate, prior to firing, includes at least two layers: a first or bottom layer applied to the aluminum surface including an enamel ground coat; and a second or top layer applied over the enamel ground coat layer including a blend of one or more glass frits, non-ceramic refractory particles, and non-vitreous inorganic oxide particles. Upon firing, the ceramic substrate includes a continuous layer of vitreous enamel that is bonded to the aluminum surface. The exposed surface of the ceramic substrate has a micro-rough texture that is enriched with bonding sides for binder resins used in a fluorocarbon polymer primer layer. The ceramic substrate protects the aluminum surface from corrosion and mechanical damage and also protects the fluorocarbon polymer coating from abrasive wear. eramic substrate prior to firing comprises at least one glass frit comprising by weight from about 30% to about 45% SiO2,from about 12% to about 30% TiO2,from about 5% to about 35% Alkali metal oxides, up to about 20% Bi2O3,up to about 15% B2O3,up to about 10% Alkaline-Earth metal oxides, up to about 10% V2O5,up to about 5% Sb2O5,and up to about 5% SnO2. 10. The nonstick coating according to claim 9 wherein said non-ceramic refractory particles comprise by weight from about 1% to about 20% of the solids portion of said second layer of said ceramic substrate. 11. The nonstick coating according to claim 1 wherein after firing said ceramic substrate has an average surface roughness (Ra) within the range of from about 0.5 μin to about 5.0 μin. 12. An article of cookware comprising a base having an aluminum surface, a ceramic substrate disposed on said aluminum surface, and a fluorocarbon polymer coating disposed on said ceramic substrate, wherein said ceramic substrate prior to firing comprises: a first layer comprising an enamel ground coat comprising at least one glass frit comprising a smelted-in bond-promoting oxide; and a second layer comprising a blend of at least one glass frit, non-vitreous inorganic oxide particles, and non-ceramic refractory particles selected from the group consisting of diamond, carbides, borides, nitrides, and mixtures of the foregoing. 13. The article of cookware as in claim 12 wherein said non-vitreous inorganic oxide particles are selected from the group consisting of alumina, SiO2,zirconia, feldspar, wollastonite, and mixtures of the foregoing. 14. The article of cookware as in claim 12 wherein said smelted in bond-promoting oxide in said glass frit in said first layer comprises cobalt oxide. 15. The article of cookware as in claim 12 wherein said fluorocarbon polymer coating disposed on said ceramic substrate comprises: a primer layer comprising a blend of fluorocarbon polymers and one or more adhesion promoting high temperature binder resins; and at least one fluorocarbon polymer top coats disposed on said primer layer.
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이 특허에 인용된 특허 (17)
Becker Gordon P. (Broadview Heights OH), Article of manufacture having composite layer affording abrasion resistant and release properties.
Winter Joseph (New Haven CT) Setzer William C. (Creve Coeur MO) Graham Douglas L. (Ballwin MO) Pryor Michael J. (Woodbridge CT), Cookware prepared from high temperature aluminum base alloys.
Mesa, Jr., Glenn A.; Aryal, Puruswottam; Ben-Dayan, Martin; Bickmore, William D.; Dahlby, Michael; Holdaway, Jerrett A.; Schliesser, Jacob, Nanosilica based compositions, structures and apparatus incorporating same and related methods.
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