Abstract: Described herein are alkali-free, boroalumino silicate glasses exhibiting desirable physical and chemical properties for use as substrates in flat panel display devices, such as, active matrix liquid crystal displays (AMLCDs). In accordance with certain of its aspects, the glasses possess good dimensional stability as a function of temperature.

Abstract: Delamination resistant glass containers with heat-tolerant coatings are disclosed. In one embodiment, a glass container may include a glass body having an interior surface, an exterior surface and a wall thickness extending from the exterior surface to the interior surface. At least the interior surface of the glass body is delamination resistant. The glass container may further include a heat-tolerant coating positioned on at least a portion of the exterior surface of the glass body. The heat-tolerant coating may be thermally stable at temperatures greater than or equal to 260° C. for 30 minutes.

Abstract: Embodiments of glass containers resistant to delamination and methods for forming the same are disclosed. According to one embodiment, a delamination resistant glass container may include a glass article having a body extending between an interior surface and an exterior surface. The body defines an interior volume. The body may include an interior region extending from 10 nm below the interior surface of the body into a thickness of the body. The interior region has a persistent layer homogeneity such that the body is resistant to delamination.

Abstract: A hermetically sealed glass package and method for manufacturing the hermetically sealed glass package are described herein using an OLED display as an example. In one embodiment, the hermetically sealed glass package is manufactured by providing a first substrate plate and a second substrate plate. The second substrate contains at least one transition or rare earth metal such as iron, copper, vanadium, manganese, cobalt, nickel, chromium, neodymium and/or cerium. A sensitive thin-film device that needs protection is deposited onto the first substrate plate. A laser is then used to heat the doped second substrate plate in a manner that causes a portion of it to swell and form a hermetic seal that connects the first substrate plate to the second substrate plate and also protects the thin film device.

Abstract: Described herein are alkali-free, boroalumino silicate glasses exhibiting desirable physical and chemical properties for use as substrates in flat panel display devices, such as, active matrix liquid crystal displays (AMLCDs). In accordance with certain of its aspects, the glasses possess good dimensional stability as a function of temperature.

Abstract: Described herein are alkali-free, boroalumino silicate glasses exhibiting desirable physical and chemical properties for use as substrates in flat panel display devices, such as, active matrix liquid crystal displays (AMLCDs). In accordance with certain of its aspects, the glasses possess good dimensional stability as a function of temperature.

Abstract: A hermetically sealed glass package and method for manufacturing the hermetically sealed glass package are described herein using an OLED display as an example. In one embodiment, the hermetically sealed glass package is manufactured by providing a first substrate plate and a second substrate plate. The second substrate contains at least one transition or rare earth metal such as iron, copper, vanadium, manganese, cobalt, nickel, chromium, neodymium and/or cerium. A sensitive thin-film device that needs protection is deposited onto the first substrate plate. A laser is then used to heat the doped second substrate plate in a manner that causes a portion of it to swell and form a hermetic seal that connects the first substrate plate to the second substrate plate and also protects the thin film device.

Abstract: Described herein are alkali-free, boroalumino silicate glasses exhibiting desirable physical and chemical properties for use as substrates in flat panel display devices, such as, active matrix liquid crystal displays (AMLCDs). In accordance with certain of its aspects, the glasses possess good dimensional stability as a function of temperature.

Abstract: The invention provides an ultraviolet lithography method/system. The lithography method and system include providing a below 200 nm radiation source, providing a photolytically improved transmitting fused silica glass lithography optical element, transmitting below 200 nm photons through said photolytically improved transmitting fused silica glass lithography optical element to form a lithography pattern which is reduced and projected onto a radiation sensitive lithography printing medium to form a printed lithography pattern. Providing the photolytically improved transmitting fused silica glass lithography optical element includes providing a photolytically improved transmitting fused silica glass lithography optical element preform body and forming the photolytically improved transmitting fused silica glass lithography optical element preform into said lithography optical element.

Abstract: The invention provides an ultraviolet lithography method/system. The lithography method and system include providing a below 200 nm radiation source, providing a photolytically improved transmitting fused silica glass lithography optical element, transmitting below 200 nm photons through said photolytically improved transmitting fused silica glass lithography optical element to form a lithography pattern which is reduced and projected onto a radiation sensitive lithography printing medium to form a printed lithography pattern. Providing the photolytically improved transmitting fused silica glass lithography optical element includes providing a photolytically improved transmitting fused silica glass lithography optical element preform body and forming the photolytically improved transmitting fused silica glass lithography optical element preform into said lithography optical element.

Abstract: The invention relates to an athermal optical waveguide grating device. The optical waveguide grating device includes a fiber Bragg grating secured and bonded to a supporting substrate member with a low thermal expansion securing glass, such as a copper alumino silicate glass. The inventive devices and method of making the devices include the utilization of intermediate solid insert members between the fiber and a negative thermal expansion substrate.

Abstract: A furnace for the deposition and collection of molten silica particles to form a solid body, the furnace comprising a collection vessel, the base of which is lined with a purified refractory material, and a method of forming the solid body which comprises lining the base of the collection cup with crushed particles of purified refractory material.

Abstract: The invention provides an ultraviolet lithography method/system. The lithography method and system include providing a below 200 nm radiation source, providing a photolytically improved transmitting fused silica glass lithography optical element, transmitting below 200 nm photons through said photolytically improved transmitting fused silica glass lithography optical element to form a lithography pattern which is reduced and projected onto a radiation sensitive lithography printing medium to form a printed lithography pattern. Providing the photolytically improved transmitting fused silica glass lithography optical element includes providing a photolytically improved transmitting fused silica glass lithography optical element preform body and forming the photolytically improved transmitting fused silica glass lithography optical element preform into said lithography optical element.

Abstract: A borosilicate glass having properties that enable it to be drawn as microsheets for use as a solar cell cover glass, and a solar cell having such microsheet as a cover glass, the glass having a composition consisting essentially of, expressed in terms of weight percent on an oxide basis: SiO2 59-69 ZnO 6.5-8.5 B2O3 8.5-14  CeO2 0.25-3   Al2O3   2-2.5 TiO2 0-1 Na2O  5.5-12.5 CeO2 + TiO2 0.5-4   K2O 0-8 Sb2O3    0-0.5.

Abstract: High silica glasses exhibiting blue color by transmitted light are produced by impregnating a porous, high silica glass with a solution of cobalt, aluminum, and selected alkaline earth or alkali salts, and then consolidating the glass under oxidizing conditions to dope the glass with the corresponding oxides. The tinted glass has particular utility as a blue filter for lighting applications.

Abstract: One component, visible light-cured dental restorative compositions having fluoride release properties for the purpose of reducing the chances of secondary caries are provided. The compositions include inorganic particulate fluoride leachable glass.

Abstract: A non-melted, non-powder concentrated colorant material consists essentially of a flux that is not over 30% by weight of an alkali metal borate, a binder that is an alkali metal silicate and 35-60% V.sub.2 O.sub.5. The flux, binder and colorant oxide constitute at least 90% of the composition. A method of producing a black glass-ceramic material comprises forming the colorant material into particles and adding the particles to a precursor glass for the glass-ceramic while the glass is passing through the forehearth of a glass tank in a molten state.

Abstract: A family of lead silicate glasses particularly adapted to drawing of tubing for use in the neck section of a cathode ray tube. The glasses have internal liquidi below 750.degree. C., electrical resistivities over 8.0 ohm-cm (Log R.sub.350.degree. C.) and linear x-ray absorption values of at least 95 cm.sup.-1 at a wavelength of 0.6 Angstrom units. Their compositions consist essentially of, in weight percent as calculated on an oxide basis, 46-51% SiO.sub.2, 0.5-2% Al.sub.2 O.sub.3, 0.3-3% Na.sub.2 O, 9-13% K.sub.2 O, 2.5-6% SrO, 1-4% BaO, 30-33% PbO, 0-2% ZnO and 0.3-1% Sb.sub.2 O.sub.3.

Abstract: The present invention is directed to transparent, essentially haze-free glass-ceramic articles exhibiting moduli of rupture in excess of 10,000 psi which consist essentially, in weight percent, of 3-6% Li.sub.2 O, 17-23% Al.sub.2 O.sub.3, 1-4% B.sub.2 O.sub.3, 60-70% SiO.sub.2, 3-6% TiO.sub.2 and/or ZrO.sub.2, 25-500 ppm Cr.sub.2 O.sub.3, and 1-5 mole percent of a glass modifying oxide selected from the group consisting of 0-3% K.sub.2 O and 0-2.5% SrO and/or BaO.

Abstract: This invention is directed to the preparation of fluoride-containing glasses wherein, when exposed to aqueous solutions, fluoride will be leached therefrom in a controlled manner over a long period of time and which can be melted and formed with little loss of fluorine through volatilization. The glasses are essentially free from alkali metal oxides and heavy toxic metals and consist essentially, in weight percent, of:SiO.sub.2 : 41.4-55.9BaO: 24.7-33.6Al.sub.2 O.sub.3 : 5.6-11B.sub.2 O.sub.3 : 6.5-10.