| Patent Number |
Title Of Patent |
Date Issued |
| RE40315 |
Coated substrate with high reflectance |
May 13, 2008 |
| A transparent coated substrate with rather high reflectance, especially for use as in exterior glazing panels for buildings or automotives, is provided by a substrate carrying a coating stack comprising a pyrolytically-formed main layer containing oxide of tin and an outer layer comp |
| 7195821 |
Coated substrate with high reflectance |
March 27, 2007 |
| A transparent coated substrate with rather high reflectance, especially for use as in exterior glazing panels for buildings or automotives, is provided by a substrate carrying a coating stack comprising a pyrolytically-formed main layer containing oxide of tin and an outer layer comp |
| 7005182 |
Colored glass substrate carrying a coating |
February 28, 2006 |
| The present invention relates to a glazing comprising: a substrate made of colored soda-lime glass composed of main glass-forming constituents and of coloring agents, which exhibits a selectivity (LT/ET) of at least 1.1, measured with Illuminant C for a glass thickness of 4 mm, and a coa |
| 6881505 |
Coated substrate with high reflectance |
April 19, 2005 |
| A transparent coated substrate with rather high reflectance, especially for use as in exterior glazing panels for buildings or automotives, is provided by a substrate carrying a coating stack comprising a pyrolytically-formed main layer containing oxide of tin and an outer layer comp |
| 6423414 |
Coated substrate with high reflectance |
July 23, 2002 |
| A transparent coated substrate with high reflectance, especially for use as in exterior glazing panels for buildings, is provided by a substrate carrying a coating stack comprising a pyrolytically-formed main layer containing oxides of tin and antimony, in which the main layer has a |
| 6416890 |
Solar control coated glass |
July 9, 2002 |
| A solar control transparent glass sheet is provided by a soda-lime glass sheet carrying a coating of at least two pyrolytically-formed layers, characterised by the presence in the coating of a conductive or semi-conductive layer having a thickness in the range 15 to 500 nm and formed |
