RU96121629A

RU96121629A - COATING SYSTEM OF NEUTRAL HIGH-QUALITY GLASS WITH LOW RADIATIVE ABILITY, MANUFACTURED FROM IT, INSULATING GLASS BLOCKS, AND METHOD OF THEIR MANUFACTURE

Info

Publication number: RU96121629A
Application number: RU96121629/03A
Authority: RU
Inventors: Клаус В. Хартинг; Стивен Л. Ларсон; Филип Дж. Лингл
Original assignee: Гардиян Индастриз Корп.,
Priority date: 1995-11-02
Filing date: 1996-11-01
Publication date: 1999-01-27

Claims

1. A glass-coated product consisting of a glass substrate having on its flat surface, outwards from the glass, a film system comprising: a) a layer containing Si ₃ N ₄ and stainless steel, stainless steel being in quantitative terms 0 , 5 - 15% by weight of the above layer; b) a layer of nickel or nichrome; c) a layer of silver; d) a layer of nickel or nichrome; and d) a layer containing Si ₃ N ₄ and stainless steel, with stainless steel in a quantitative ratio of 0.5 to 15% by weight of said layer, while if said glass substrate has a thickness of from 2 to 6 mm, then said coated the glass substrate has a normal emissivity (E _n ) of about 0.06 or less, a hemisphere emissivity (E _h ) of about 0.07 or less, a sheet resistance (R _s ) of about 5.0 ohm / sq, or less and has almost neutral color of the reflected visible radiation when viewed from the side of the glass.

2. The coated glass product of claim 1, wherein said coated glass substrate has a transmittance in the visible range of at least about 70%.

3. The coated glass product according to claim 1, wherein said glass product is capable of being heat-treated.

4. The coated glass product of claim 1, wherein said film system further includes an underlayer consisting of TiO ₂ and layers have the following thickness
layer - thickness

sublayer - 100 - 400
a - 20 - 120
b - 7 - 50
in - 75 - 225
g - 7 - 30
d - 50 - 600
5. The coated glass product of claim 4, wherein said glass substrate has an emissivity normal (E _n ) of about 0.05 or less, a hemisphere emissivity (E _h ) of about 0.06 or less, sheet resistance ( R _s ) about 5.0 ohms / sq, or less.

6. The coated glass product according to claim 5, consisting essentially of said underlayer and layers (a) - (d), in which said stainless steel in said layers (a) and (d) is about 6% by weight of said layer .

7. Spray-coated glass product according to claim 6, in which the layers have the following thickness
layer - thickness

sublayer - 200-250
a - 40-60
b - 7-30
in - 150-180
g - 7-15
d - 400-500
8. The glass-coated glass product of claim 7, wherein said layers (b) and (d) comprise chromium nitride and said stainless steel contains chromium nitride.

9. The coated glass product of claim. 8, in which the layers have the following thickness:
layer - thickness

sublayer - 225
a - 50
b - 20
in - 165
g - 7
d - 450
and in which the glass substrate with said film system on it has the following characteristics
on the glass side
RgY around - 11.0
and _h - about 2.3
b _h - about 8.8
from the side of the film
R _F Y - about 6.0
_h is about 5.4
b _h - about 17.5
where RY is the reflection coefficient, and _h , b _h are color coordinates, measured in Hunter units, with a reference light source in 1 candle, at an observation angle of 10 °, and in which the mentioned film system is mechanically and chemically resistant and has a transmittance in the visible range of about 76%.

10. The coated glass product of claim 9, wherein said film system is heat treated.

11. The coated glass product of claim 1, wherein said film system consists of said layers (a) - (d) and said layers have the following thickness
layer - thickness

a - 200-600
b - 7-50
in - 115-190
g - 7-30
d - 50-600
12. The glass-coated product according to claim 11, wherein the layers have the following thicknesses
layer - thickness

a - 400-500
b - 7-30
in - 140-170
g - 7-15
d - 400-600
13. The coated glass product according to claim 12, wherein said film system is chemically and mechanically resistant.

14. A coated glass product according to claim 13, wherein said layers have the following thicknesses
layer - thickness

a - 450
b - 20
in - 155
g - 7
d - 550
and in which said glass substrate with said film system on it has a transmittance in the visible range greater than 70%.

15. A coated glass product according to claim 14, wherein said glass substrate with said film system on it has the following characteristics:
on the glass side
R _G Y - about 10.2
a _h - about 0.4
b _h - about -4.7
from the side of the film
R _F Y - about 4.6
a _h - about 6.5
b _h - about 15.8
where RY is the reflection coefficient, and a _h , b _h is the color coordinates, measured in Hunter units, with a reference light source of 1 candle, at an observation angle of 10 °.

16. A coated glass article according to claim 15, wherein said film system is heat to be processed.

17. The coated glass product of claim 16, wherein said stainless steel in layers (a) and (e) is about 6% by weight of said layer.

18. A coated glass product according to claim 17, wherein said layers (b) and (d) contain chromium nitride and said stainless steel contains chromium nitride.

19. A coated glass article according to claim 1, wherein said stainless steel is # 316 stainless steel.
20. The glass-coated glass product of claim 1, wherein said glass substrate with said film system on it has the following characteristics
From the side of the glass
R _G Y from 8 to 18
a _h from -3 to +3
b _h from 0 to -15
from the side of the film
R _F Y from 4 to 15
a _h from 0 to +8
b _h from -5 to -20
where RY is the reflection coefficient, and a _h , b _h is the color coordinates, measured in Hunter units, with a reference light source of 1 candle, at an observation angle of 10 °.

21. A coated glass product according to claim 20, wherein the characteristics on the glass side and on the film side are
on the glass side
R _G Y from 9 to 15
a _h from -1 to +3
b _h from -4 to -10
from the side of the film
R _F Y from 4 to 10
a _h from +3 to +7
b _h from -10 to -20.

22. The glass-coated glass product of claim 1, wherein said transmittance in the visible range of said coated glass substrate is 74-76%.

23. Insulating glass unit consisting of at least two practically parallel spaced glass sheets, in which at least one glass sheet is a coated glass sheet according to claim 1.

24. The insulating glass unit of claim 23, wherein said two sheets of glass are jointly sealed at their edges to thereby form an insulating chamber between them, and wherein said film system is located on the surface of one of said glass sheets inside said insulating chamber, and reflection coefficient and color characteristics when viewed from the outside are
R _G Y from 14 to 20
a _h from -2 to +2
b _h from 0 to -10,
when viewed from the inside are:
R _F Y from 11 to 18
_h from 0 to +4
b _h from 0 to -10,
and the transmittance in the visible range is at least 61%.

25. Insulating glass unit according to claim 24, in which said unit is an insulating glass window, door or wall, and the transmittance in the visible range is at least 63%.

26. An insulating glass block comprising at least two substantially parallel spaced sheets of glass, jointly sealed at their edges, thereby forming an insulating chamber between them, in which at least of the said glass sheets is a sprayed glass sheet according to claim 4. moreover, said film system is located inside said insulating chamber.

27. An insulating glass block comprising at least two substantially parallel spaced glass sheets, jointly sealed at their edges, thereby forming an insulating chamber between them, in which at least of the said glass sheets is a sprayed glass sheet according to claim 8, moreover, said film system is located inside said insulating chamber.

28. An insulating glass block containing at least two practically parallel spaced sheets of glass, jointly sealed with heat at their edges and forming an insulating chamber practically free of air between them, in which at least one of the said glass sheets is covered with a spraying glass sheet 10, and the above-mentioned film system is located inside the said insulating chamber.

29. An insulating glass unit comprising at least two substantially parallel spaced glass sheets, jointly sealed at their edges, thereby forming an insulating chamber between them, in which at least one of the said glass sheets is a sprayed glass sheet according to claim 11, moreover, said film system is located inside said insulating chamber.

30. An insulating glass block comprising at least two substantially parallel spaced glass sheets, jointly sealed at their edges, thereby forming an insulating chamber between them, in which at least of the said glass sheets is a sprayed glass sheet according to claim 13, moreover, said film system is located inside said insulating chamber.

31. An insulating glass block containing at least two practically parallel spaced sheets of glass, jointly sealed with heat at their edges and forming an insulating chamber, which is practically free from air, in which at least one of the said glass sheets is covered by spraying a glass sheet 18, and said film system is located inside said insulating chamber.

32. In a method of manufacturing an insulating glass block containing at least two sheets of glass sealed at their edges with each other, thereby forming between at least one insulating chamber between them, said method includes separating said glass sheets from one another , heating said sheets at elevated temperatures and soldering the edges of said sheets to each other at elevated or even higher temperatures, the improvement includes using ETS of one of said glass sheets, said sputter-coated glass article according to claim. 3 disposed so that said film system thereon is within said insulating chamber.

33. In the method according to claim 32, wherein at least one of said glass sheets is a spray-coated glass article according to claim 10.

34. In the method according to claim 32, wherein at least one of said glass sheets is a spray-coated glass article according to claim 16.