IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0777191
(2004-02-13)
|
§371/§102 date |
20021113
(20021113)
|
발명자
/ 주소 |
- Neuman, George
- Stachowiak, Grzegorz
- Wang, Hong
|
출원인 / 주소 |
- Guardian Industries Corp.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
26 |
초록
▼
A heat treatable coated article including a solar management layer for reflecting infrared (IR) or the like, is provided between a substrate and an overlying dielectric layer. An underlying dielectric layer between the substrate and solar management layer is optional. In certain embodiments, the sol
A heat treatable coated article including a solar management layer for reflecting infrared (IR) or the like, is provided between a substrate and an overlying dielectric layer. An underlying dielectric layer between the substrate and solar management layer is optional. In certain embodiments, the solar management layer may include NiCrNx while the dielectric layer(s) may include a nitride such as silicon nitride. By nitriding the solar management layer, it has been found that the resulting coated article is more color stable upon heat treatment (HT). For example, the coated article may have a ΔE* value (transmissive and/or glass side reflective) of no greater than 5.0, more preferably no greater than 4.0, and most preferably no greater than 3.0. Coated articles herein may be used in the context of insulating glass (IG) window units, vehicle windows, or the like.
대표청구항
▼
1. A heat treated coated article comprising:a layer system supported by a glass substrate, said layer system comprising a layer comprising metal nitride located between at least first and second dielectric layers, wherein the second dielectric layer is at least partially nitrided and positioned so t
1. A heat treated coated article comprising:a layer system supported by a glass substrate, said layer system comprising a layer comprising metal nitride located between at least first and second dielectric layers, wherein the second dielectric layer is at least partially nitrided and positioned so that the layer comprising metal nitride is between the second dielectric layer and the glass substrate; wherein the layer comprising the metal nitride is the primary infrared (IR) reflecting layer of the layer system; wherein said coated article has a glass side reflective ΔE*G value no greater than 4.0 after heat treatment; and wherein said coated article is chemically durable in that the coated article before and/or after heat treatment shows no visible discoloration and no visible peeling after a reference of a one hour boil of a sample of the coated article in 5% HCl solution at about 220 degrees F. 2. The coated article of claim 1, wherein each of the first and second dielectric layers have an index of refraction (n) less than an index of refraction (n) of the layer comprising metal nitride.3. The coated article of claim 1, wherein at least one of the first and second dielectric layers comprises silicon nitride and further includes from 6-20% aluminum.4. The coated article of claim 1, wherein the coated article is an IG window unit.5. The coated article of claim 1, wherein the layer comprising metal nitride directly contacts each of the first and second dielectric layers.6. The coated article of claim 1, wherein the layer comprising metal nitride is from 50-350 Å thick.7. The coated article of claim 1, wherein the layer comprising metal nitride is from 50-350 Å thick, and wherein the first dielectric layer is from 30-250 Å thick and the second dielectric layer is from 100-500 Å thick.8. The coated article of claim 1, wherein the layer comprising metal nitride is from 50-350 Å thick, and wherein the first dielectric layer is from 50-120 Å thick and the second dielectric layer is from 210-310 Å thick.9. The coated article of claim 1, wherein said coated article has a glass side reflective ΔE*G value no greater than 3.0 after heat treatment.10. The coated article of claim 1, wherein each of said first and second dielectric layers comprises a nitride, and wherein said metal nitride inclusive layer is in contact with each of said first and second dielectric layers.11. The coated article of claim 1, wherein said heat treatment comprises heating the coated article for at least about five minutes at a temperature of at least about 600 degrees C.12. The coated article of claim 1, wherein said coated article has a glass side reflective Δb*G value no greater than 0.4 after heat treatment.13. The coated article of claim 1, wherein said coated article has a transmissive Δa* value no greater than 1.1 after heat treatment.14. The coated article of claim 1, wherein said coated article has a transmissive Δa* value no greater than 0.8 after heat treatment.15. The coated article of claim 1, wherein said coated article has a transmissive Δb* value no greater than 3.0 after heat treatment.16. The coated article of claim 1, wherein the coated article has a sheet resistance of no greater than 250 ohms/square.17. The coated article of claim 1, wherein the coated article has a sheet resistance of no greater than 100 ohms/square.18. The coated article of claim 1, wherein the coated article has a sheet resistance of no greater than 41 ohms/square.19. The coated article of claim 1, wherein the coated article has substantially no pinholes greater than about 0.003″ in diameter after the reference of a one hour boil of the sample of the coated article in 5% HCl solution at about 220 degrees F.20. The coated article of claim 1, wherein the coated article has a hemispherical emissivity no greater than about 1.0.21. The coated article of claim 1, wherein the coated article has a hemispherical emissivity no greater than about 0.5.22. The coated article of claim 1, wherein the coated article has a hemispherical emissivity no greater than about 0.4.23. The coated article of claim 1, wherein the layer comprising metal nitride contacts each of the first and second dielectric layers.
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