Low temperature process for obtaining thin glass films
Abstract
A method for coating a substrate with a glass-like film comprises, applying to the substrate an aqueous alcoholic solution containing a polymeric network of partially hydrolyzed metal alkoxide into which network there is incorporated finely powdered glass, whereby there is achieved on the substrate a coherent and adherent initial film; and heating said film to a temperature sufficient to melt said powdered glass component, thereby converting said initial film to a final densified film.
- Inventors:
- OSTI Identifier:
- 5447304
- Application Number:
- ON: DE84005961
- Assignee:
- SNL; EDB-84-030206
- DOE Contract Number:
- AC04-76DP00789
- Resource Type:
- Patent
- Country of Publication:
- United States
- Language:
- English
- Subject:
- 36 MATERIALS SCIENCE; GLASS; DEPOSITION; ALCOHOLS; AQUEOUS SOLUTIONS; HEATING; SUBSTRATES; SURFACE COATING; THIN FILMS; DISPERSIONS; FILMS; HYDROXY COMPOUNDS; MIXTURES; ORGANIC COMPOUNDS; SOLUTIONS; 360601* - Other Materials- Preparation & Manufacture
Citation Formats
Brinker, C J, and Reed, S T. Low temperature process for obtaining thin glass films. United States: N. p.,
Web.
Brinker, C J, & Reed, S T. Low temperature process for obtaining thin glass films. United States.
Brinker, C J, and Reed, S T. .
"Low temperature process for obtaining thin glass films". United States.
@article{osti_5447304,
title = {Low temperature process for obtaining thin glass films},
author = {Brinker, C J and Reed, S T},
abstractNote = {A method for coating a substrate with a glass-like film comprises, applying to the substrate an aqueous alcoholic solution containing a polymeric network of partially hydrolyzed metal alkoxide into which network there is incorporated finely powdered glass, whereby there is achieved on the substrate a coherent and adherent initial film; and heating said film to a temperature sufficient to melt said powdered glass component, thereby converting said initial film to a final densified film.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {},
month = {}
}