Low-E matchable coated articles and methods of making same
First Claim
1. A coated article comprising:
- a layer system supported by a glass substrate, said layer system comprising an infrared (IR) reflecting layer comprising silver located between first and second dielectric layers; and
wherein said coated article has a Δ
E*ab value (glass side) no greater than 2.5 after or due to heat treatment.
2 Assignments
0 Petitions
Accused Products
Abstract
A heat treatable coated article including an infrared (IR) reflecting layer (e.g., of or including Ag), the coated article being able to attain a ΔE*ab (glass side) no greater than about 3.0, more preferably no greater than 2.5, and even more preferably no greater than 2.0, following or due to heat treatment (e.g., thermal tempering). Accordingly, low-E (i.e., low emissivity) coated articles of certain embodiments of this invention appear from the glass side thereof visually similar to the naked eye both before and after heat treatment. Coated articles herein may be used in the context of insulating glass (IG) window units, vehicle windshields, or any other suitable applications. In certain embodiments of this invention, an exemplary layer stack includes: glass/Si3N4/NiCr/Ag/NiCr/Si3N4. Other materials may instead be used without departing from the scope and/or spirit of the instant invention which is a low-E matchable product.
124 Citations
31 Claims
-
1. A coated article comprising:
-
a layer system supported by a glass substrate, said layer system comprising an infrared (IR) reflecting layer comprising silver located between first and second dielectric layers; and
wherein said coated article has a Δ
E*ab value (glass side) no greater than 2.5 after or due to heat treatment.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
wherein said coated article has a color characterized by a*G and b*G color coordinate values of the coated article both being negative both before and after heat treatment of the coated article.
-
-
3. The coated article of claim 1, wherein said layer system further includes a first layer including Ni or NiCr located between said silver layer and said first dielectric layer, and a second layer including Ni or NiCr located between said silver layer and said second dielectric layer.
-
4. The coated article of claim 3, wherein said coated article has a sheet resistance value RS no greater than 20 ohms/square before heat treatment.
-
5. The coated article of claim 4, wherein said coated article has a sheet resistance value RS no greater than 15 ohms/square, both before and after heat treatment.
-
6. The coated article of claim 5, wherein said coated article has a sheet resistance value RS no greater than 12 ohms/square, both before and after heat treatment.
-
7. The coated article of claim 3, wherein said first and second dielectric layers comprise silicon nitride.
-
8. The coated article of claim 7, wherein each of said first and second Ni or NiCr inclusive layers is at least 20 angstroms (Å
- ) thick.
-
9. The coated article of claim 8, wherein said layer system comprises the recited layers at the following thicknesses, where the first silicon nitride inclusive layer is located between the glass substrate and the first Ni or NiCr inclusive layer:
-
first silicon nitride inclusive layer;
300-350 Å
thickfirst Ni or NiCr inclusive layer;
20-50 Å
thicksilver layer;
60-100 Å
thicksecond Ni or NiCr inclusive layer;
20-50 Å
thicksecond silicon nitride inclusive layer;
400-500 Å
thick.
-
-
10. The coated article of claim 9, wherein said layer system comprises the recited layers at the following thicknesses:
-
first silicon nitride inclusive layer;
310-330 Å
thickfirst Ni or NiCr inclusive layer;
25-45 Å
thicksilver layer;
60-80 Å
thicksecond Ni or NiCr inclusive layer;
25-45 Å
thicksecond silicon nitride inclusive layer;
420-480 Å
thick.
-
-
11. The coated article of claim 3, wherein said coated article has a hemispherical emissivity (Eh) of no greater than 0.20, both before and after heat treatment.
-
12. The coated article of claim 3, wherein said coated article has a Δ
- a*G value (glass side, absolute value) no greater than 1.0 after or due to heat treatment.
-
13. The coated article of claim 12, wherein said coated article has a Δ
- a*G value (glass side, absolute value) no greater than 0.8 after or due to heat treatment.
-
14. The coated article of claim 1, wherein said coated article has a hemispherical emissivity (Eh) of no greater than 0.25, both before and after heat treatment.
-
15. The coated article of claim 1, wherein the coated article makes up a portion of an insulating glass (IG) window unit.
-
16. The coated article of claim 1, wherein the coated article has an a*G value of from about 0.0 to −
- 4.0 before and after heat treatment, and a b*G value that is negative both before and after heat treatment.
-
17. The coated article of claim 16, wherein the coated article has an a*G value of from about 0.0 to −
- 2.5 before and after heat treatment.
-
18. The coated article of claim 1, wherein the coated article has a shading coefficient (SC) of from 0.04 to 0.60.
-
19. A coated article comprising:
-
a substrate;
a layer system provided on the substrate, said layer system comprising from the glass outwardly, a first silicon nitride inclusive layer, a first Ni or NiCr inclusive layer, an IR reflecting metal layer, a second Ni or NiCr inclusive layer, and a second silicon nitride inclusive layer;
wherein each of said first and second Ni or NiCr inclusive layers is at least about 20 Å
thick; and
wherein said coated article has a hemispherical emissivity (Eh) of no greater than 0.25 before heat treatment, a sheet resistance RS no greater than 20 ohms/square before heat treatment, and a Δ
E*ab value (glass side) no greater than 2.5 after or due to heat treatment.- View Dependent Claims (20, 21, 22, 23, 24)
-
-
25. A method of making a coated article, the method comprising:
-
depositing a layer system on a glass substrate, the layer system including an infrared (IR) reflecting layer comprising silver located between first and second dielectric layers, wherein prior to heat treatment the glass substrate with the layer system thereon has a sheet resistance RS no greater than 20 ohms/square; and
heat treating the substrate with the layer system thereon so that due to said heat treating the resulting substrate with the layer system thereon has a Δ
E*ab value (glass side) no greater than 2.5.- View Dependent Claims (26, 27, 28)
a) first silicon nitride inclusive layer;
300-350 Å
thickb) first Ni or NiCr inclusive layer;
20-50 Å
thickc) silver layer;
60-100 Å
thickd) second Ni or NiCr inclusive layer;
20-50 Å
thicke) second silicon nitride inclusive layer;
400-500 Å
thick.
-
-
29. A method of making a coated article, the method comprising:
-
sputtering a layer system onto a glass substrate to form a coated substrate, the layer system comprising a metal infrared (IR) reflecting layer located between first and second dielectric layers; and
thermally tempering the coated substrate including the glass substrate with the layer system thereon, so that the coated substrate has a Δ
E*ab value (glass side) no greater than 2.5 and a hemispherical emissivity (Eh) no greater than 0.25.- View Dependent Claims (30)
-
-
31. A coated article comprising:
-
a glass substrate;
a layer system provided on the substrate, said layer system comprising from the glass outwardly, a first silicon nitride inclusive layer 300 to 350 Å
thick, a first Ni or NiCr inclusive layer from 25 to 45 Å
thick, a silver layer from 60-100 Å
thick, a second Ni or NiCr inclusive layer from 25 to 45 Å
thick, and a second silicon nitride inclusive layer;
wherein said coated article has a hemispherical emissivity (Eh) of no greater than 0.25 and a sheet resistance RS no greater than 20 ohms/square; and
wherein coated article is heat treated and has a Δ
E*ab value (glass side) no greater than 2.5.
-
Specification