Methods for preparing durable hydrophobic, oleophobic, and anti-icing coatings by applying a composition that comprises a lacquer binder, one or more types of particles having a size of about 30 microns to about 225 micron, and one or more types of particles modified with hexamethyldisilazane, polydimethylsiloxane or silanizing agents are set forth, along with the resulting coatings and methods of their use.

A method for producing a reflector element and a reflector element are disclosed. In an embodiment the method includes depositing a layer sequence on a substrate, wherein the layer sequence includes at least one mirror layer and at least one reactive multilayer system and igniting the reactive multilayer system in order to activate heat input in the layer sequence.

One or more aspects of the disclosure pertain to an article including a film disposed on a glass substrate, which may be strengthened, where the interface between the film and the glass substrate is modified, such that the article has an improved average flexural strength, and the film retains key functional properties for its application. Some key functional properties of the film include optical, electrical and/or mechanical properties. In one or more embodiments, the interface exhibits an effective adhesion energy of about less than about 4 J/m.sup.2. In some embodiments, the interface is modified by the inclusion of a crack mitigating layer containing an inorganic material between the glass substrate and the film.

Systems and methods of powder coating glass to block light are described herein. The method includes preheating a glass item and applying two or three coats of powder, alternating with heating at desired temperatures and/or for a set time. The glass article may be a glass window or a container for holding items that must be stored or transported without being exposed to light.

Systems and methods of powder coating glass to block light are described herein. The method includes preheating a glass item and applying two or three coats of powder, alternating with heating at desired temperatures and/or for a set time. The glass article may be a glass window or a container for holding items that must be stored or transported without being exposed to light.

The invention relates to a process for manufacturing flat glass, comprising the following successive steps: (a) applying a layer of a glass frit to a glass textile, the glass of the frit and of the textile having essentially the same composition, (b) heating the glass textile bearing the layer of glass frit to a temperature T>T.sub.L20 C., T.sub.L being the Littleton temperature of the glass frit, for a sufficient length of time to convert the layer of frit into an enamel layer of the same composition as the glass textile, and (c) cooling the glass textile impregnated with the enamel or bearing an enamel layer, obtained in step (b), so as to obtain a glass sheet.

It also relates to a glass sheet capable of being obtained by this process.

Described herein are methods for creating spill-proof or spill-resistant surfaces through the use of hydrophobic or oleophobic (H-SH) edges, borders and/or boundaries that contain the water and other liquids within the inside edges, borders and/or boundaries. Also described herein are spill-proof/spill-resistant surfaces. Liquid (e.g., water and other aqueous solutions/suspensions) heights of 3-6 mm on a level planar surface can be sustained by such edges, borders and/or boundaries. The H-SH borders can be created on glass, metal, wood, plastic, and concrete surfaces.

The present invention relates to a method for creating a glass article having increased thermal resistive qualities, the method includes encasing mica and/or other minerals in between at least two pieces of interlay film which is positioned between two pieces of glass and baking the glass in a vacuum sealed heater at a predetermined temperature for a predetermined time period. The method may also include positioning powder coating on a substrate, heating the substrate and powder coating to heat and melt the powder coating; and then positioning minerals on the substrate when the powder coating is hot, or optionally placing the powder coating over the minerals and heating the powder coating together with the minerals on the substrate. The invention also relates to the articles produced using the above processes.

A glazing includes a transparent substrate, and at the periphery of the substrate, at least one emitter of hydrophobic compounds by a gaseous process; the at least one emitter being arranged to enable the release of the hydrophobic compounds, and a fraction of the released hydrophobic compounds being able to be deposited on the surface of the transparent substrate.

A method of manufacturing a scintillator material includes providing a substrate made of a quartz glass and having a recess formed therein; filling the recess with a raw material powder obtained by mixing an iodide raw material and SiO.sub.2 fine particles; after filling the recess, disposing a lid on the substrate to cover the recess; and after disposing the lid, heating the substrate, thereby forming a nanocomposite layer in which an iodide phosphor is introduced into a cristobalite structure.