Patent application number | Description | Published |
20090233084 | Nano-particle loaded metal oxide matrix coatings deposited via combustion deposition - Certain example embodiments relate to coatings comprising nano-particle loaded metal oxide matrices deposited via combustion deposition. The matrix and the nano-particles comprising the coating may be of or include the same metal or a different metal. For example, the coating may include a silicon oxide matrix (e.g., SiO | 09-17-2009 |
20090233105 | Composite coatings comprising hollow and/or shell like metal oxide particles deposited via combustion deposition - Certain example embodiments relate to the combustion deposition depositing of coatings comprising metal oxide matrices loaded with hollow metal oxide particles. The hollow metal oxide particles may be produced by combusting an emulsion including an aqueous phase and an oil phase, and an optional surfactant. The aqueous and/or oil phase may include a first metal oxide precursor. A second metal oxide precursor may be combusted in addition to the emulsion to produce a dense binder layer, acting as a “glue” to hold the hollow particles together. The matrix and the hollow particles comprising the coating may be of or include the same metal or a different metal. In certain example embodiments, the microstructure of the final deposited coating may resemble the microstructure of coatings produced by wet chemical (e.g., sol gel) techniques. | 09-17-2009 |
20090274930 | Alkaline earth fluoride coatings deposited via combustion deposition - Certain example embodiments of this invention relate to the combustion deposition depositing of alkaline earth fluoride inclusive coatings on substrates from a metal inclusive organic precursor and a fluorinating reagent, or from a single-source precursor. In certain example embodiments, the fluorinating reagent may be an organic source or an inorganic source. In certain example embodiments, the alkaline earth fluoride inclusive coating may be a magnesium fluoride (e.g., MgF | 11-05-2009 |
20090311423 | Surface-assisted combustion deposition deposited coatings, and/or methods of making the same - Certain example embodiments relate to surface-assisted combustion deposition deposited coatings (e.g., metal oxide coatings) formed on glass substrates, and/or methods of making the same. In certain example embodiments, a wet-applied (e.g., sol-gel applied) pre-treatment coating increases a number of nucleation sites on or proximate to the at least one surface of the substrate to be coated, and/or increases a number of binding sites or forms a binding medium on the at least one surface of the substrate to be coated. A combustion deposition deposited growth is formed thereon. The pre-treatment coating may facilitate the combustion deposition depositing of coatings. | 12-17-2009 |
20090311500 | Deposition of Ruthenium Oxide Coatings on a Substrate - A CVD process is defined for producing a ruthenium dioxide or ruthenium metal like coating on an article. The article is preferably for use as an architectural glazing, and preferably has low emissivity and solar control properties. The method includes providing a heated glass substrate having a surface on which the coating is to be deposited. A ruthenium containing precursor, an oxygen containing compound, and optionally water vapor, in conjunction with an inert carrier gas, are directed toward and along the surface to be coated and the ruthenium containing precursor and the oxygen containing compound are reacted at or near the surface of the glass substrate to form a ruthenium dioxide coating. | 12-17-2009 |
20100075157 | Scratch-and etch-resistant coated glass article, and method of making same - A scratch resistant coated article is provided which is also resistant to attacks by at least some fluorine-inclusive etchant(s) for at least a period of time. In certain example embodiments, an anti-etch layer(s) is provided on a glass substrate in order to protect the glass substrate from attacks by fluorine-inclusive etchant(s), a scratch resistant layer of or including DLC is provided over the anti-layer(s), and a seed layer is provided between the anti-layer(s) and the scratch resistant layer so as to facilitate the adhesion of the scratch resistant layer while also helping to protect the anti-layer(s). Optionally, a base layer(s) or underlayer(s) may be under at least the anti-etch layer(s). | 03-25-2010 |
20110226786 | Curing Coatings on Glass Containers - A method of applying a coating to a glass container, which includes the steps of coating an exterior surface of the glass container with a thermally-curable coating material containing electrically-conductive nanoparticles, and exposing the coated container to radio frequency radiation such that absorption of the radio frequency radiation by the nanoparticles internally heats and cures the thermally-curable coating material on the exterior surface of the glass container to result in a cured coating on the glass container. | 09-22-2011 |
20110250346 | ADHESION OF ORGANIC COATINGS ON GLASS - Methods of manufacturing and coating glass including depositing an inorganic oxide on an exterior surface of the glass, and then applying an organofunctional silane to the glass over the inorganic oxide. The methods also may include applying an organic coating to the glass over the organofunctional silane, and curing the organic coating. | 10-13-2011 |
20110281109 | Coated Glass Article - A coated glass article, particularly for use as architectural glass, is gold in appearance. The coated glass article includes a glass substrate with an iron oxide coating deposited thereover, the iron oxide coating comprising primarily iron oxide in the form Fe | 11-17-2011 |
20130334089 | Glass Container Insulative Coating - A glass container and related methods of manufacturing and coating glass containers. The container includes an axially closed base at an axial end of the container, a body extending axially from the closed base and being circumferentially closed, and an axially open month at another end of The container opposite of the base. An exterior surface of the container includes an infrared insulative coating including at least one of a metal or a transparent conductive oxide (TCO), wherein the metal is selected from the group consisting of silver, gold, and aluminum, and wherein the TCO is selected from the group consisting of SnO | 12-19-2013 |
20140001075 | Antireflective Coating For Glass Containers | 01-02-2014 |
20140182337 | Coatings for Enhancing Glass Strength - Methods of manufacturing and coating a glass container by applying an aminofunctional silane coating composition to an exterior surface of the glass container, and then curing the silane coating composition to form a crosslinked siloxane coating on the exterior surface of the glass container. | 07-03-2014 |