Claims
- 1. Method for the production of coated glass with a high transmissivity in the visible spectral range and with a low surface electrical resistivity and a high reflectivity for thermal radiation by cathode sputtering of coatings on a substrate consisting of mineral glass, the cathode sputtering comprising providing on the mineral glass:
- a) a first coating comprising at least one oxide from the group consisting of tine oxide, silicon dioxide, aluminum oxide, tantalum oxide and zirconium oxide,
- b) a second coating of an alloy of about 80 weight-percent nickel and about 20 weight-percent of chromium,
- c) a third coating of silver or silver alloy containing at least 50 weight-percent of silver,
- d) a fourth coating of the alloy forming the second coating, and
- e) a fifth coating of an oxide form the oxides forming the group of said first coating,
- the substrate then being heated with the coatings a) through e) on it to at least the softening temperature of the glass, plastically shaped in the heated state, and cooled in the shaped state.
- 2. Method according to claim 1, wherein
- a) said coatings b) and d) are applied in a thickness that leads to a greater absorption in the visible range before heat treatment than after heat treatment and
- b) the heat treatment of said substrate and coatings is performed in an oxidizing atmosphere until the average transmission in the visible range through the substrate and coatings has increased at least 5%.
- 3. Method according to claim 1, wherein the maximum transmission in the visible range through the substrate and coatings is established by selecting the thickness of the coatings b), c) and d), to be 70-80% transmission before the heat treatment, and increasing it by the heat treatment to 80-87% transmission.
- 4. Method according to claim 1, wherein thickness of the coating c) is adjusted so that, after the heat treatment, a surface electrical resistivity of between 2 and 10 ohms/square results.
- 5. Method according to claim 1 wherein the fifth coating comprises 5 to 15 weight-percent of tine and 4-8 weight-percent of at least one from the group consisting of antimony, fluorine, and indium oxide.
- 6. Method according to claim 1, wherein the first a) nd the fifth coating e) are produced by cathode sputtering of metal targets in a reactive atmosphere and the second b), third c) and fourth coating d) are produced by cathode sputtering of metal or metal alloy targets in an inert atmosphere.
- 7. Method as in claim 1 wherein the respective coatings are sputtered to the following thicknesses:
- a) first coating: 35 nm
- b) second coating: 2 nm
- c) third coating: 20 nm
- d) fourth coating: 2 nm
- e) fifth coating: 35 nm
- and wherein, the thickness of the second and fourth coatings may be varied so that the transmission of light through the substrate and coatings in the visible range is 77% prior to heat treatment.
- 8. Method as in claim 1 wherein the second coating consists wholly of tin oxide.
- 9. Method of claim 2 wherein the transmission of visible light through the substrate and coatings after heat treatment increases by at least 8%.
Priority Claims (1)
Number |
Date |
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3726488 |
Aug 1987 |
DEX |
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Parent Case Info
This application is a continuation-in-part of application Ser. No. 115,264, filed Oct. 30, 1987 abandoned.
US Referenced Citations (16)
Foreign Referenced Citations (6)
Number |
Date |
Country |
35906 |
Sep 1981 |
EPX |
2203943 |
Jul 1973 |
DEX |
3543178 |
Jun 1987 |
DEX |
60-81876 |
May 1985 |
JPX |
61-284703 |
Dec 1986 |
JPX |
62-41740 |
Feb 1987 |
JPX |
Non-Patent Literature Citations (3)
Entry |
O'Bannon, Dictionary of Ceramic Science and Engineering, Plenum Press, 1984, p. 123. |
Webster's II New Riverside University Dictionary, Riverside Publishing Company, 1984, p. 533. |
Chemical Abstracts, Bond 106 Nr. 16 Arp. 1987 p. 312, Abstract No. 124627 (JP-A 61284 703). |
Continuation in Parts (1)
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Number |
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115264 |
Oct 1987 |
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