Anti-iridescence coatings

US 5,254,392 A
Filed: 06/24/1991
Issued: 10/19/1993
Est. Priority Date: 06/24/1991
Status: Expired due to Fees

First Claim

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1. A substantially transparent glazing article comprising a substantially transparent substrate bearing a coating on a surface thereof, said coating comprising an optically functional layer having a refractive index higher than the substrate, and an anti-iridescence layer which is less thick than the optically functional layer and positioned mediate the substrate surface and the optically functional layer, the anti-iridescence layer comprising a first high refractive index zone directly on the substrate surface, having a refractive index at least 0.1 higher than the substrate, a first low refractive index zone over the first high refractive index zone, having a refractive index at least 0.1 lower than the first high refractive index zone, a second high refractive index zone over the first low refractive index zone, having a refractive index at least 0.1 higher than the first low refractive index zone, and a second low refractive index zone over the second high refractive index zone, having a refractive index at least 0.1 lower than the second high refractive index zone.

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Abstract

A glazing article comprises a substrate bearing a substantially transparent coating comprising an optically functional topcoat and a thinner anti-iridescence layer undercoat mediate the topcoat and the substrate. The anti-iridescence layer eliminates or substantially reduces iridescence and, in addition, is readily designed to make the overall coating either colorless or to provide a substantially uniform muted color. The anti-iridescence layer comprises a first thickness zone in which the refractive index is higher than that of the substrate. A low refractive index zone is positioned directly on the high refractive index zone. A second high refractive index zone is positioned on the low refractive index zone, such that the low refractive index zone is directly sandwiched between the two high refractive index zones. A fourth zone, a low refractive index zone, follows the second high refractive index zone. Anti-iridescence is provided for a wide variety of optically functional topcoats without significant impairment of the optical performance thereof. Certain preferred embodiments are particularly well adapted for low emissivity glazing for architectural applications.

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15 Claims

1. A substantially transparent glazing article comprising a substantially transparent substrate bearing a coating on a surface thereof, said coating comprising an optically functional layer having a refractive index higher than the substrate, and an anti-iridescence layer which is less thick than the optically functional layer and positioned mediate the substrate surface and the optically functional layer, the anti-iridescence layer comprising a first high refractive index zone directly on the substrate surface, having a refractive index at least 0.1 higher than the substrate, a first low refractive index zone over the first high refractive index zone, having a refractive index at least 0.1 lower than the first high refractive index zone, a second high refractive index zone over the first low refractive index zone, having a refractive index at least 0.1 higher than the first low refractive index zone, and a second low refractive index zone over the second high refractive index zone, having a refractive index at least 0.1 lower than the second high refractive index zone.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The substantially transparent glazing article of claim 1 wherein the thickness and the refractive index of the first low refractive index zone are substantially equal to those of the second low refractive index zone.
  - 3. The substantially transparent glazing article of claim 2 wherein the refractive index of the first low refractive index zone and the second low refractive index zone each is less than the refractive index of the optically functional layer and less than the refractive index of the substrate.
  - 4. The substantially transparent glazing article of claim 1 wherein the thickness and the refractive index of the first high refractive index zone are substantially equal to those of the second high refractive index zone.
  - 5. The substantially transparent glazing article of claim 4 wherein the refractive index of the first high refractive index zone and the second high refractive index zone are substantially equal to that of the optically functional layer.
  - 6. The substantially transparent glazing article of claim 1 wherein the substrate is glass having a refractive index about 1.5 and the first high refractive index zone and the second high refractive index zone each has a refractive index in the range of about 1.6 to 2.5.
  - 7. The substantially transparent glazing article of claim 1, wherein the first high refractive index zone, the second high refractive index zone and the optically functional layer each consists essentially of SnO₂.
  - 8. The substantially transparent glazing article of claim 1 wherein the substrate is glass having a refractive index about 1.5, the optically functional layer is approximately 2,000 to 10,000 Angstroms thick and consists essentially of tin oxide, the first high refractive index zone and the second high refractive index zone each is about 100 to 300 Angstroms and consists essentially of tin oxide, and the first low refractive index zone and the second low refractive index zone each is about 100 to 300 Angstroms thick and consists essentially of material selected from the group consisting of silicon dioxide.
  - 9. The substantially transparent glazing article of claim 1 wherein the first low refractive index zone and the second low refractive index zone each has a refractive index in the range of about 1.38 to 1.65.
  - 10. The substantially transparent glazing article of claim 9 wherein the first low refractive index zone and the second low refractive index zone each consists essentially of SiO₂.
  - 11. The substantially transparent glazing article of claim 1 wherein the second low refractive index zone is directly under the optically functional layer.
  - 12. The substantially transparent glazing article of claim 1 further comprising additional zones of alternating high and low refractive index mediate the second low refractive index zone and the optically functional layer.

13. A substantially transparent, low emissivity glazing article comprising a substantially transparent glass substrate having a substantially transparent coating on a surface thereof, the coating comprising an optically functional layer having a refractive index of approximately 1.9 and a substantially uniform thickness of about 2,000 to 5,000 Angstroms, consisting essentially of SnO₂, and an anti-iridescence layer mediate the substrate surface and the optically functional layer, consisting essentially of:
- a first high refractive index zone directly on the substrate surface, consisting essentially of SnO₂ and having a refractive index of approximately 1.9 and a substantially uniform thickness of about 100 to 300 Angstroms;
  
  a first low refractive index zone directly on the first high refractive index zone, consisting essentially of SiO₂ and having a refractive index of approximately 1.44 and a substantially uniform thickness of about 100 to 300 Angstroms;
  
  a second high refractive index zone directly on the first low refractive index zone, consisting essentially of SnO₂ and having a refractive index of approximately 1.9 and a substantially uniform thickness of about 100 to 300 Angstroms; and
  
  a second low refractive index zone directly on the second high refractive index zone and directly under the optically functional layer, consisting essentially of SiO₂ and having a refractive index of approximately 1.44 and a substantially uniform thickness of about 100 to 300 Angstroms.

14. A method of making a substantially transparent glazing article comprising the steps of:
- depositing a first high refractive index zone directly on a surface of a substantially transparent substrate, the first high refractive index zone having a refractive index at least 0.1 higher than said substrate;
  
  then depositing a first low refractive index zone over the first high refractive index zone, the first low refractive index zone having a refractive index at least 0.1 lower than the first high refractive index zone;
  
  then depositing a second high refractive index zone over the first low refractive index zone, the second high refractive index zone having a refractive index at least 0.1 higher than the first low refractive index zone;
  
  then depositing a second low refractive index zone over the second high refractive index zone, the second low refractive index zone having a lower refractive index at least 0.1 lower than the second high refractive index zone; and
  
  then depositing an optically functional layer thicker than the anti-iridescence layer over the second low refractive index zone.
- View Dependent Claims (15)
- - 15. The method of claim 14 wherein each said zone and said optically functional layer is deposited by pyrolytic deposition.

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Current Assignee
Ford Motor Company
Original Assignee
Ford Motor Company
Inventors
Middleton, Daryl J., Burns, Carole G., Proscia, James W.
Primary Examiner(s)
Thibodeau, Paul J.
Assistant Examiner(s)
LE, HOA T

Application Number

US07/720,135
Time in Patent Office

848 Days
Field of Search

428/34, 428/212, 428/213, 428/216, 428/428, 428/432, 428/699, 428/701, 428/702, 427/108, 427/109, 427/126.3, 427/166, 427/167, 427/255, 427/255.3
US Class Current

428/212
CPC Class Codes

C03C 17/3417   all coatings being oxide co...

C03C 17/3435   comprising a nitride, oxyni...

C03C 17/3452   comprising a fluoride

C03C 17/347   comprising a sulfide or oxy...

C03C 17/42   at least one coating of an ...

G02B 1/10   Optical coatings produced b...

G02B 1/14   Protective coatings, e.g. h...

G02B 5/208   for use with infrared or ul...

G02B 5/285   comprising deposited thin s...

Y10T 428/24942   including components having...

Anti-iridescence coatings

First Claim

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Abstract

55 Citations

15 Claims

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Anti-iridescence coatings

First Claim

1 Assignment

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0 Petitions

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Abstract

55 Citations

15 Claims

Specification

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Solutions

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