Nickel-aluminum blocker film low-emissivity coatings

What is claimed is: 1. A glazing sheet and a low-emissivity coating on the glazing sheet, the low-emissivity coating comprising, in sequence moving outwardly from the glazing sheet, a layer comprising oxide film, nitride film, or oxynitride film, an infrared-reflective film comprising metallic film, a nickel-aluminum blocker film, and an oxide film, wherein the nickel-aluminum blocker film has an outer interface and an inner interface, wherein the outer interface adheres to the oxide film while the inner interface adheres to the infrared-reflective film, and wherein the outer interface comprises aluminum oxide while the inner interface comprises metallic nickel and wherein the nickel-aluminum blocker film is devoid of metals other than nickel and aluminum and wherein the nickel-aluminum blocker film contains aluminum at a weight % of less than 30%. 2. The glazing sheet and low-emissivity coating of claim 1 wherein the nickel-aluminum blocker film contains more than 7.5% aluminum by weight. 3. The glazing sheet and low-emissivity coating of claim 1 wherein the nickel-aluminum blocker film has a thickness of between 10 angstroms and 80 angstroms. 4. The glazing sheet and low-emissivity coating of claim 3 wherein the low-emissivity coating has two or more nickel-aluminum blocker films, one of the nickel-aluminum blocker films being at least 20% thicker than another of the nickel-aluminum blocker films. 5. The glazing sheet and low-emissivity coating of claim 4 wherein the low-emissivity coating has only two nickel-aluminum blocker films, and wherein a first of the two nickel-aluminum blocker films is located closer to the glazing sheet than is a second of the two nickel-aluminum blocker films, the first nickel-aluminum blocker film being more than 20% thicker than the second nickel-aluminum blocker film. 6. The glazing sheet and low-emissivity coating of claim 4 wherein the low-emissivity coating includes three nickel-aluminum blocker films, and wherein a first of the nickel-aluminum blocker films is located closer to the glazing sheet than is a second of the nickel-aluminum blocker films, the second nickel-aluminum blocker film being located closer to the glazing sheet than is a third of the nickel-aluminum blocker films, the second and third nickel-aluminum blocker films each being between 50% and 300% thicker than the first nickel-aluminum blocker film. 7. The glazing sheet and low-emissivity coating of claim 6 wherein the first nickel-aluminum blocker film has a thickness of between 10 and 40 angstroms, the second and third nickel-aluminum blocker films each having a thickness between 10 and 60 angstroms. 8. The glazing sheet and low-emissivity coating of claim 1 wherein the glazing sheet is a glass pane having a thickness in the range of 2 mm to 5 mm. 9. The glazing sheet and low-emissivity coating of claim 8 wherein the glass pane is soda-lime glass. 10. The glazing sheet and low-emissivity coating of claim 1 wherein the infrared-reflective film is at least 50% silver by weight. 11. A glazing sheet and a low-emissivity coating on the glazing sheet, the low-emissivity coating comprising, in sequence moving outwardly from the glazing sheet, a base coat comprising at least one transparent dielectric film, a first infrared-reflective film comprising metallic film, a first nickel-aluminum blocker film, a middle coat comprising at least one transparent dielectric oxide film, a second infrared-reflective film comprising metallic film, a second nickel-aluminum blocker film, and a top coat comprising at least one transparent dielectric oxide film, wherein the second infrared-reflective film is thicker than the first infrared-reflective film, in combination with the first nickel-aluminum blocker film being thicker than the second nickel-aluminum blocker film, wherein each the first nickel-aluminum blocker film and the second nickel-aluminum blocker film has an outer interface and an inner interface, wherein the outer interface adheres to a transparent dielectric oxide film while the inner interface adheres to an infrared-reflective film, and wherein the outer interface comprises aluminum oxide while the inner interface comprises metallic nickel and wherein each the first nickel-aluminum blocker film and the second nickel-aluminum blocker film is devoid of metals other than nickel and aluminum and wherein the nickel-aluminum blocker film contains aluminum at a weight % of less than 30%. 12. The glazing sheet and low-emissivity coating of claim 11 wherein the first nickel-aluminum blocker film is at least 50% thicker than the second nickel-aluminum blocker film. 13. The glazing sheet and low-emissivity coating of claim 12 wherein the first nickel-aluminum blocker film is at least 75% thicker than the second nickel-aluminum blocker film. 14. The glazing sheet and low-emissivity coating of claim 12 wherein the first and second blocker films have a combined thickness of greater than 60 angstroms. 15. The glazing sheet and low-emissivity coating of claim 12 wherein the first and second blocker films have a combined thickness of from 20-150 angstroms. 16. The glazing sheet and low-emissivity coating of claim 11 wherein the first nickel-aluminum blocker film is in contact with the first infrared-reflective film, the middle coat comprises an oxide layer in contact with the first nickel-aluminum blocker film, the second nickel-aluminum blocker film is in contact with the second infrared-reflective film, and the top coat comprises an oxide layer in contact with the second nickel-aluminum blocker film.