Abstract: A method to obtain a refractory carbide-based composite material, in particular as an article of a predetermined shape includes the following steps: molding of a porous blank from a mixture of powders of at least one carbide-forming metal and/or non-metal and at least one carbide, the amount of carbide component in the mixture of powders not exceeding 90%, heat treating the obtained porous blank in a hydrocarbonous atmosphere containing one or more hydrocarbons until the increase in its mass reaches 2-42%, thereby obtaining a semi-product, and heating the obtained semi-product in a non-oxidizing medium at a temperature of 1000-2000° C.

Abstract: A method for producing a silicon nitride filter by heat-treating in nitrogen green body of from 35 to 90 mass % of silicon nitride particles having an average particle diameter of from 1 to 30 ?m, from 5 to 60 mass % of a pore-forming agent and from 0.1 to 5 mass % of metal oxide particles, provided that the total amount of the silicon nitride particle , the pore-forming agent and the metal oxide particles is at least 90 mass %, to form a porous product.

Abstract: A rewritable optical recording medium includes a segmented groove area in which the groove track is segmented along a rotating direction of the recording medium by groove non-forming portions to form a plurality of groove portions; and a continuous groove area in which a continuous groove is formed, the continuous groove having a groove width smaller than a groove width in the segmented groove area.

Abstract: A drive has a link which connects via a bearing to a shaft which supports an insert carrier. To lubricate the bearing oil is dropped onto an elongated reservoir in the top surface of a slide rail secured to the insert carrier and the oil flows by gravity through the rail and insert carrier to the shaft and then through the shaft to the surface of the shaft where it is supported by a bearing.

Abstract: The present invention relates to a method for forming an optical blank. The method includes providing a green body that has a non-porous exterior portion and a porous interior portion. The interior portion is evacuated to create a vacuum in the interior portion. The green body is then pressed using a hot isostatic pressing technique to densify the green body into a solid glass optical blank. This method produces homogeneous optical blanks having substantially no striae. The method also produces dense, inclusion free glass. As a result, scattering is substantially reduced when EUV light is reflected from a component produced from optical blank employing the method of the present invention.

Abstract: A method for forming a magnetic disk comprises the following steps. First, an inner and outer cut is provided in a work piece. The waste piece thus comprises an outer waste piece, an inner waste piece, and a region between the inner and outer waste pieces that is to be used as a substrate for manufacturing a magnetic disk. The outer waste piece is separated from the substrate by applying a hot plate against the outer waste piece, thereby causing it to thermally expand and separate from the substrate. The substrate is then placed over (but not in contact with) a hot plate, while a cooling element is placed on the inner waste piece. This causes the substrate to thermally expand while the inner waste piece thermally contracts. Thus, a gap forms between the substrate and inner waste piece, thereby permitting the separation of the inner waste piece from the substrate.

Abstract: The invention relates to a method for heating up and shaping a preform consisting of glass or glass ceramic. According to the invention, a preform, formed using conventional methods, is heated to a temperature that is below the adhesion temperature of the gas, i.e. to below critical viscosity; in a second heating phase the preform is put into a hovering state through the supply of levitation gas; in the hovering state the preform is heated by a microwave heating apparatus to a temperature that permits its shaping; and the preform is delivered to a shaping station.

Abstract: A method for manufacturing a glass optical element having at least one concave surface, including: softening a glass molding material by heating, molding the softened material with a first mold having a first molding surface and a second mold having a second molding surface by applying a pressure, the first molding surface including a first concave forming surface, the second molding surface including a convex forming surface, a planar forming surface or a second concave forming surface, the second concave forming surface having a curvature radius greater than that of the first concave forming surface, whereby the applying of the pressure starts when the first mold and the second mold are at temperatures above a glass transition temperature of said glass molding material, the glass material is cooled so that a temperature of the glass material reaches a temperature equal to or lower than a glass transition temperature (Tg) of the glass material, and the cooled glass material is removed from either of the firs

Abstract: A candidate composition is prepared. For the candidate composition, the basicity was calculated. With reference to the basicity thus calculated, the fusibility with a mold is evaluated. With reference to the result of evaluation, the composition is determined. A glass material is prepared to have the determined composition, melted, and formed. Thus, a mold-press forming glass having the basicity adjusted to be equal to 11 or less is produced.

Abstract: Formed bottles are simultaneously cooled within the blow molds of an I.S. machine on their inner and outer surfaces and inner surface cooling continues from the time the takeout grips a bottle through a displacement course to a deadplate location, then to a conveyor location and finally to a deposit location where the bottle is deposited. A deadplate mechanism encloses a bottle at the deadplate location and moves to the conveyor location with the takeout and cools the outer surface of the bottle until the bottle is displaced from the conveyor location to the deadplate location.

Abstract: An apparatus for forming glass coiled tubes from a source of glass in which a molten glass thread is drawn, and a method for forming glass coiled tubes. The apparatus has a shaping mandrel having a first end and an opposing second end, having a desired shape for receiving around it the molten glass thread such that when the thread is drawn about the desired shape, a formed coil is developed that essentially takes a desired shape from the shaping mandrel; a block simultaneously applies the newly formed coil to the back of the formed tube and moves the formed tube in a direction towards the second end in response to the additional molten glass thread drawn to the coil; a hook engages the molten glass thread and a rotating motor rotates the hook.

Abstract: High purity direct deposit vitrified silicon oxyfluoride glass suitable for use as a photomask substrates for photolithography applications in the VUV wavelength region below 190 nm is disclosed. The inventive direct deposit vitrified silicon oxyfluoride glass is transmissive at wavelengths around 157 nm, making it particularly useful as a photomask substrate at the 157 nm wavelength region. The inventive photomask substrate is a dry direct deposit vitrified silicon oxyfluoride glass which exhibits very high transmittance in the vacuum ultraviolet (VUV) wavelength region while maintaining the excellent thermal and physical properties generally associated with high purity fused silica. In addition to containing fluorine and having little or no OH content, the inventive direct deposit vitrified silicon oxyfluoride glass suitable for use as a photomask substrate at 157 nm is also characterized by having less than 1×1017 molecules/cm3 of molecular hydrogen and low chlorine levels.

Abstract: A retrofit technology for air-fuel fired, vertical glass furnace for oxygen firing or boosting to provide additional heat to the process to increase furnace production capacity. The additional firing using oxygen is strategically controlled to enable enhanced radiation from oxygen flame for the spheroidizing process without negative effects on the overall process. With proper implementation, an increased production from 50% to 200%, depending on the size of the spheres, can be achieved while maintaining acceptable product quality. Processes in accordance with the present invention can be performed using one of a number of methods of oxygen boosting.

Abstract: An I.S. machine has a takeout arm which grips a bottle at the blow station and carries it longitudinally to a first deadplate position and then transversely to a second deadplate position. Along the transverse path is a cullet chute. A deadplate mechanism also is displaceable from a remote position to the first deadplate position and then to the second deadplate position. The deadplate is displaced away from the cullet chute so that the takeout arm can be positioned above the cullet chute to drop rejected, formed bottles.

Abstract: An I.S. machine wherein a parison is blown into a bottle in a blow mold. The parison is initially suspended from the neck ring mechanism and the blow molds are displaced to close around the parison below the finish. The neck ring mechanism is displaced away from the mold and a blow head is located on top of the mold to provide final blow. A heat sensor senses when the parison, during reheat has reached the bottom of the mold and supplies a signal to a controller which starts final blow based on the time when this signal was supplied.

Abstract: Disclosed are processes for manufacturing glass optical elements by press molding a heated and softened glass material in preheated molds. In the process, the glass material is heated while it is floated by a gas blow and the heated and softened glass material is transferred to the preheated molds and then subjected to press molding. Alternatively, the process comprises: heating a glass material at a temperature at which the glass material has a viscosity of lower than 109 poises, preheating molds at a temperature at which the glass material has a viscosity of from 109 to 1012 poises, subjecting the heated and softened glass material to initial press in the preheated molds for 3 to 60 seconds, starting to cool the vicinity of molding surfaces of the molds at a rate of 20° C.

Abstract: A formed bottle is delivered by a takeout mechanism to a deadplate where it is suspended for cooling. A temperature sensor is mounted to monitor the suspended bottle. When the sensed temperature shows an unacceptable variation, the takeout mechanism and deadplate are displaced relative to one another so that the suspended bottles are located above a cullet chute for disposal.

Abstract: A method for manufacturing display tube includes a first stage of press-forming molten glass put in a mold using a plunger, and a second stage of cooling the formed glass after it has been taken out from the mold. After removal of the plunger the heat radiation of the inner face portion of the central panel portion is reduced.

Abstract: A mold support mechanism for an I.S. machine has a carrier that is releasably connected to the shaft on which the drive links of a drive are rotatably supported.

Abstract: A blow head is displaced to the “on” position where its lower portion engages the top of a blow mold. Final blow begins and before final blow is completed, the blow head is raised a selected distance and final blow is exhausted between the O.D. of the formed finish and the upwardly defined annular recess in the lower portion of the blow head. The annular recess is concavely curved to direct exhaust air at the finish to cool the finish.