| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 065036000 | Fusion bonding of glass to a formed part | 66 |
| 20090205371 | Laser Processing of Glass Frit For Sealing Applications - Light-absorbing glass frit material is used to seal an opening in a device or a plurality of devices in a batch process. The glass frit material is applied and then irradiated with light having a wavelength absorbed by the glass frit material so that the glass frit ball undergoes a glassy transition and forms a seal. When sealing an opening in a device, the glass frit material may be applied as a spherical ball such that the spherical ball covers the opening. The volume of the spherical ball may be selected to determine the final shape of the seal. | 08-20-2009 |
| 20120067085 | Method of manufacturing light-emitting device - A method of manufacturing a light-emitting device including a light-emitting element mounted on a substrate and sealed with a glass. The method includes heating the glass by a first mold that is heated to a temperature higher than a yield point of the glass, the glass contacting the first mold, and pressing the glass against the light-emitting element mounted on the substrate supported by a second mold to seal the light-emitting element with the glass. | 03-22-2012 |
| 20090100872 | Method for laminating glass, glass-ceramic, or ceramic layers - A method for laminating glass, glass-ceramic, or ceramic layers. The method comprises providing a first layer of glass, glass-ceramic, or ceramic, wherein the glass, glass-ceramic, or ceramic of the first layer is electromagnetic radiation-sensitive or has an electromagnetic radiation susceptor disposed on it; stacking a second layer of glass, glass-ceramic, or ceramic on the first layer; and irradiating the stack with electromagnetic radiation to laminate the first and second layers. | 04-23-2009 |
| 20100154476 | System and Method for Frit Sealing Glass Packages - A sealing device and method are described herein that can be used to manufacture a hermetically sealed glass package. In one embodiment, the hermetically sealed glass package is suitable to protect thin film devices which are sensitive to the ambient environment (e.g., oxygen, moisture). Some examples of such glass packages are organic emitting light diode (OLED) displays, sensors, and other optical devices. The present invention is demonstrated using an OLED display as an example. | 06-24-2010 |
| 20110072854 | METHOD FOR JOINING MEMBERS TO BE JOINED AND JOINING APPARATUS USED THEREFOR - Provided are a method for joining members to be joined and a joining apparatus used therefor, which can easily and inexpensively join members to be joined such as glass members can be together with good finish. | 03-31-2011 |
| 20110067448 | FUSION-BONDING PROCESS FOR GLASS - A part of a glass layer | 03-24-2011 |
| 20110072855 | GLASS FUSION METHOD - After a glass layer | 03-31-2011 |
| 20120042694 | Curable Acrylate Based Printing Medium - An acrylate-based curable printing medium is disclosed. Acrylates, in the form of monomers, dimers, trimers and oligomers, as well as resins, form an interpenetrating polymer network by crosslinking, which is effected by heat, and optionally peroxide curing agents. Formulations can be tailored to achieve desired properties of the cured polymer including film hardness, burnout properties, and adhesion to glass. Such properties are adjusted by manipulating the relative proportions of the acrylic monomers, oligomers and resins that are used as a ceramic medium or vehicle. | 02-23-2012 |
| 065041000 | With annealing or tempering of glass | 5 |
| 20120006061 | Method of manufacturing glass substrate and method of manufacturing electronic components - Disclosed is a method of manufacturing a glass substrate with through electrodes, the method including: a wire stretching process in which a plurality of conductive wires are stretched in parallel between upper and lower bases; a wire burying process in which a plurality of the wires between the bases are buried by glass; an ingot formation process in which a glass ingot having the buried wires is formed by cooling the glass; a slicing process in which a glass panel is formed by slicing the glass ingot; and a polishing process in which a plurality of the wires are exposed on front and rear surfaces of the glass panel to provide the through electrodes. | 01-12-2012 |
| 20100162759 | HIGH PURITY FUSED SILICA WITH LOW ABSOLUTE REFRACTIVE INDEX - A fused silica glass article having a low absolute refractive index and low concentrations of hydroxyl groups, halogens, and metal having a low absolute refractive index. The glass article contains less than about 10 ppm protium-containing and deuterium-containing hydroxyl groups by weight and less than about 20 ppm halogens by weight. The silica glass article also has an absolute refractive index (ARI) less than or equal to 1.560820. In one embodiment, the ARI of the fused silica article is achieved by lowering the fictive temperature of the fused silica. A method of lowering the fictive temperature is also described. | 07-01-2010 |
| 20120006060 | Method of manufacturing glass substrate and method of manufacturing electronic components - A plurality of via-holes are formed in panel-shaped glass, and a plurality of via-holes are formed in two bases. Then, the panel-shaped glass is interposed between the two bases, positions of a plurality of the via-holes of the bases and a plurality of the via-holes of the panel-shaped glass are aligned, wires made of a conductive material are penetrated, and the wires between the two bases are stretched. Then, the panel-shaped glass is heated to a point higher than a softening point of the glass, the wires between the bases are buried by the glass, and the glass is cooled to form a glass ingot having the buried wires. Then, the ingot is sliced to form a glass substrate, the glass panel is polished to expose the wires on front and rear surfaces as the through electrodes. | 01-12-2012 |
| 20120324952 | USE OF A GLASS COMPOSITION FOR MAKING A SOLAR COLLECTOR WITH A GLASS-METAL JOINT - A glass composition for a tubular glass body used to form a glass-metal joint in a tubular solar collector. Includes a borosilicate glass having a dilatometric chart with a hard segment and a soft- segment hysteresis. The soft segment glass transition temperature is less than the hard-segment glass transition temperature for a temperature difference ΔT higher than 20° C. The composition comprises:
| 12-27-2012 |
| 20120324953 | VACUUM INSULATING GLASS UNIT INCLUDING INFRARED MELTABLE GLASS FRIT, AND/OR METHOD OF MAKING THE SAME - A method of making a vacuum insulating glass (VIG) unit. The method includes providing first and second substantially parallel spaced-apart glass substrates, a glass frit being provided at least partially between the first and second glass substrates for sealing said one or more edge portions to be sealed; and irradiating infrared energy towards the one or more edge portions to be sealed in forming an edge seal. The glass frit has a glass redox (FeO/Fe | 12-27-2012 |
| 065042000 | Bonding of subassembly with subsequent assembly and bonding (formed parts only) | 4 |
| 20090308105 | Mask and method for sealing a glass envelope - A mask for laser sealing a temperature and environmentally sensitive element, such as an OLED device, surrounded by a frit wall between first and second substrates. The mask is opaque and has a transparent elongate transmission region. The width of the transmission region may be substantially equal to the width of the frit wall. A strip of opaque mask material extends approximately along a longitudinal center line of the elongate transmission region. The mask is located between a laser and the first or second substrate. The laser emits a generally circular beam having a diameter that is larger than the width of the frit wall and is directed through the transmission region in the mask, such that opaque portions of the mask block portions the laser beam and the transparent transmission region allows a portion of the laser beam to pass through the mask and impinge upon the frit wall to melt the frit wall, thereby joining the first and second substrates and hermetically sealing the element therebetween. A process and system for sealing such an element between a first substrate and a second substrate separated by at least one frit wall employing such mask. | 12-17-2009 |
| 20090064717 | Glass Frit And Sealing Method For Element Using The Same - The present invention relates to a glass frit and a sealing method for an electric element using the same, and more particularly, to a glass frit which provides a good sealing effect to moisture and gas and is processable at low temperatures, and a sealing method for an electric element using the same. | 03-12-2009 |
| 20100218556 | METHOD AND APPARATUS FOR THE JOINING OF LOW EXPANSION GLASS - The invention is directed to a method and apparatus for joining together pieces of low thermal expansion glass to form parts that can be used in the manufacturing of mirror blanks. The parts are then used as a basis for the fabrication, using the method described herein, of hexagon sub-assemblies that would then be joined for assembly into mirror blanks. | 09-02-2010 |
| 20080209945 | Method and apparatus for fusing carbon containing artifacts in glass - Cremated ashes or other carbon containing artifacts are displayed between layers of glass. The method of preparation of the display includes taking a layer of glass, preferably dichroic glass, and sprinkling a layer of glass frit along with the artifact onto the first glass layer. The sprinkled layer is covered with a second layer of glass, the whole assembly being fused at a temperature of about 1700 degrees Fahrenheit or 927 degrees Celsius. An optional third layer above the second layer of glass adds apparent depth and provides a layer space for fusing in additional artwork or other aesthetics and decorations. | 09-04-2008 |
| 065043000 | By or with coating at joint interface of a formed part prior to bonding | 26 |
| 20100043494 | PROCESS FOR FABRICATING A MICROFLUIDIC DEVICE - The invention relates to a method of fabricating “open” microfluidic devices by screen printing. The method comprises steps consisting in:
| 02-25-2010 |
| 20120222450 | ANTIMONY-FREE GLASS, ANTIMONY-FREE FRIT AND A GLASS PACKAGE THAT IS HERMETICALLY SEALED WITH THE FRIT - An antimony-free glass suitable for use in a frit for producing a hermetically sealed glass package is described. The hermetically sealed glass package, such as an OLED display device, is manufactured by providing a first glass substrate plate and a second glass substrate plate and depositing the antimony-free frit onto the first substrate plate. OLEDs may be deposited on the second glass substrate plate. An irradiation source (e.g., laser, infrared light) is then used to heat the frit which melts and forms a hermetic seal that connects the first glass substrate plate to the second glass substrate plate and also protects the OLEDs. The antimony-free glass has excellent aqueous durability, good flow, low glass transition temperature and low coefficient of thermal expansion. | 09-06-2012 |
| 20130111953 | Hermetic Sealing of Glass Plates - Durable hermetic seals between two inorganic substrates are produced using a high-intensity electromagnetic energy source, such as laser, to heat and seal enamel layers with controlled absorption of high-intensity energy source. Durable hermetic seals incorporating electrical feedthroughs are also produced. | 05-09-2013 |
| 20120285200 | Method for Manufacturing Glass Sealed Body and Method for Manufacturing Light-Emitting Device - In a method for manufacturing a glass sealed body, a paste including powdered glass and a binder is discharged from an outlet whose shape is a closed curve to fowl a partition whose shape is a closed curve over a first glass substrate; the partition is heated so that the binder is volatilized and the powdered glass is fused to be a frit glass; and the frit glass and a second glass substrate are heated while disposing in close contact with each other, so that the frit glass and the second glass substrate are welded together to form a closed space by the frit glass, the first glass substrate, and the second glass substrate. A light-emitting element is sealed with the glass sealed body, so that the sealing is hardly broken even when impact or external force is applied. | 11-15-2012 |
| 20120096899 | METHOD OF AND APPARATUS FOR MOLDING GLAZING GASKET ONTO MULTILAYER GLASS PANEL - While a first coating gun | 04-26-2012 |
| 20120240630 | GLASS WELDING METHOD AND GLASS LAYER FIXING METHOD - A glass layer | 09-27-2012 |
| 20120240628 | GLASS WELDING METHOD AND GLASS LAYER FIXING METHOD - When fixing a glass layer | 09-27-2012 |
| 20120240632 | GLASS WELDING METHOD AND GLASS LAYER FIXING METHOD - At the time of temporary firing for fixing a glass layer | 09-27-2012 |
| 20120240629 | GLASS WELDING METHOD AND GLASS LAYER FIXING METHOD - When fixing a glass layer | 09-27-2012 |
| 20120240633 | GLASS WELDING METHOD AND GLASS LAYER FIXING METHOD - A glass layer | 09-27-2012 |
| 20120240631 | GLASS WELDING METHOD AND GLASS LAYER FIXING METHOD - At the time of temporary firing for fixing a glass layer | 09-27-2012 |
| 20100115998 | Thick film sealing glass compositions for low temperature firing - The present invention is a composition that may be used for sealing applications in the manufacture of electronic devices. The composition includes organic vehicles that may be removed upon low temperature firing in air or inert atmospheres. The present invention is further a process for the use of the composition. | 05-13-2010 |
| 20120055196 | MANUFACTURING METHOD OF HERMETIC CONTAINER - A manufacturing method of a hermetic container includes an assembling step of assembling the hermetic container and a sealing step of sealing by first and second sealing materials. Thus, in a case where local heating light is scanned toward an already-sealed portion of the second sealing material, since a separation portion of an unsealed state is located between the already-sealed portion and a downstream end of scanning, a load due to expansion/contraction of a frame body is applied to the first sealing material which is present in the separation portion of the unsealed state. After then, since the local heating light is irradiated to the first sealing material to which the load has been applied so as to heat and melt it, the load is relieved, whereby it is possible to suppress deterioration of joining strength and airtightness of the hermetic container. | 03-08-2012 |
| 20110088431 | FUSION-BONDING PROCESS FOR GLASS - When fixing a glass layer | 04-21-2011 |
| 20120111059 | PROCESS AND APPARATUS FOR PRODUCING GLASS MEMBER PROVIDED WITH SEALING MATERIAL LAYER AND PROCESS FOR PRODUCING ELECTRONIC DEVICE - To provide a process for producing a glass member provided with a sealing material layer, capable of favorably forming a sealing material layer even in a case where the entire glass substrate cannot be heated. | 05-10-2012 |
| 20120151965 | GLASS FUSION METHOD - A glass layer fixing method for manufacturing a glass layer fixing member by fixing a glass layer to a first glass member, includes the steps of disposing the glass layer on the first glass member along a region to be fused, the glass layer containing a glass powder and a laser-absorbing material and irradiating the region to be fused therealong with a first laser beam, so as to melt the glass layer, fix the glass layer to the first glass member, and increase a laser absorptance of the glass layer. | 06-21-2012 |
| 20110088430 | FUSION-BONDING PROCESS FOR GLASS - When melting a glass layer | 04-21-2011 |
| 20120131959 | LASER SEALING DEVICE FOR GLASS SUBSTRATES - A laser sealing device for glass substrates includes a first laser head and a second laser head. The first laser head irradiates laser onto a sealing material coated between glass substrates, thereby melting the sealing material. The second laser head is provided at a predetermined interval from the first laser head, irradiates laser onto the portion which has been irradiated by the first laser head, and is set to a lower power than the first laser head. The device further includes a heating plate provided so as to be movable relative to the first and second laser heads and placed on the glass substrates when being heated to a predetermined temperature. Thus, it is possible to minimize the occurrence of cracking in the glass substrates due to thermal shock since the temperature of the sealing material which is melted by the laser heads drops slowly rather than rapidly. | 05-31-2012 |
| 20120210750 | Localized heating techniques incorporating tunable infrared element(s) for vacuum insulating glass units, and/or apparatuses for same - Certain example embodiments of this invention relate to edge sealing techniques for vacuum insulating glass (VIG) units. More particularly, certain example embodiments relate to techniques for providing localized heating to edge seals of units, and/or unitized ovens for accomplishing the same. In certain example embodiments, infrared (IR) heating elements are controllable to emit IR radiation at a peak wavelength in the near infrared (NIR) and/or short wave infrared (SWIR) band(s), and the peak wavelength may be varied by adjusting the voltage applied to the IR heating elements. The peak wavelength may be selected so as to preferentially heat the frit material used to form a VIG edge seal while reducing the amount of heat provided to substrates of the VIG unit. In certain example embodiments, the substrates of the VIG unit do not reach a temperature of 325 degrees C. for more than 1 minute. | 08-23-2012 |
| 20120247153 | GLASS WELDING METHOD AND GLASS LAYER FIXING METHOD - When melting a glass layer | 10-04-2012 |
| 20120260694 | GLASS WELDING METHOD AND GLASS LAYER FIXING METHOD - A glass layer | 10-18-2012 |
| 20120234047 | METHOD FOR FLUID-TIGHT ASSEMBLY OF TWO PARTS IN SILICON NITRIDE - A method for the fluid-tight assembly of two parts silicon nitride respectively comprising a male end and a female end, each of these ends being provided with mechanical assembly means capable of cooperating together and which, under assembling conditions, delimit a space -between them, said method comprises the assembling of the said parts by cooperation of the mechanical assembly means of the male and female ends, and filling of the space existing between these assembly means with a glass joint, and is characterized in that this filling comprises: coating, before assembling of the parts, the mechanical means of one and/or the other of the male and female ends with a borosilicate glass paste; and applying heat treatment to the parts after the assembling thereof. | 09-20-2012 |
| 20120318023 | METHOD OF MANUFACTURING LIGHT-EMITTING DEVICE - A method of manufacturing a sealed structure with excellent hermeticity and a method of manufacturing a light-emitting device sealed with the sealed structure. In the methods of manufacturing a sealed structure and a light-emitting device using a glass frit layer, a first step of forming a buffer layer for preventing a crack generated in a substrate and the glass frit layer by laser light irradiation, a second step of forming the glass frit layer to overlap with the buffer layer over the substrate, and a third step of welding the substrates by irradiating the glass frit layer or the buffer layer with laser light are performed, whereby a sealed structure with high hermeticity and a reliable light-emitting device sealed with the sealed structure can be manufactured. By applying the method of manufacturing a light-emitting device especially to an organic EL element, a highly reliable light-emitting device can be obtained. | 12-20-2012 |
| 20110265518 | MANUFACTURING METHOD OF HERMETIC CONTAINER AND IMAGE DISPLAY APPARATUS - A manufacturing method of a hermetic container includes the steps of sandwiching a frame-like sealing material between a first glass substrate and a second glass substrate, irradiating first local heating light to a first region of the sealing material, and sealing the first glass substrate and the second glass substrate to each. The sealing is performed by irradiating, on a boundary between the first region of the sealing material and a second region of the sealing material which is adjacent to the first region and on which the first local heating light is not irradiated, second local heating light to heat and melt a portion of the second region adjacent to the boundary, during a period that viscosity of the sealing material at a portion of the first region adjacent to the boundary is equal to or lower than 10 | 11-03-2011 |
| 20120318022 | GLASS COMPOSITIONS FOR GASKETS OF APPARATUSES OPERATING AT HIGH TEMPERATURES AND ASSEMBLING METHOD USING THEM - A glass composition, characterized in that it is selected from the group consisting of: a glass composition (A) with the following molar percentages: 70 to 76% of SiO | 12-20-2012 |
| 20130008207 | INTEGRATED LOWER-PLATE GLASS AND MANUFACTURING METHOD OF VACUUM MULTI-LAYER GLASS INCLUDING SAME - Disclosed are an integrated lower-plate glass and a manufacturing method of a vacuum multi-layer glass including the same. The invention provides the vacuum multi-layer glass in which: a border unit is formed at the edge of a lower glass plate, so that a space unit is formed inside; a getter insertion unit is formed in one or more inner parts of an upper plate glass settlement unit formed along the inner surface of the border unit; an integrated lower-plate glass of which a vent pipe is connected to one end of the getter insertion unit is prepared; a metal container filled with a getter is settled in the getter insertion unit; an upper glass plate is settled on an upper side of the upper glass plate settlement unit, and the upper glass plate is bonded with the upper side of the upper glass plate settlement unit and with an inner side of the border unit; the other end of the vent pipe is connected to a vacuum pump, so that the space unit is in a vacuum state; and the vent pipe is cut, thereby effectively activating the getter through a simpler process, improving productivity, and reducing a defective proportion. | 01-10-2013 |
| 065044000 | With embossing or corrugating | 1 |
| 20120297831 | METHOD AND INSTALLATION FOR MANUFACTURING A GLASS BOTTLE - The installation for manufacturing a glass bottle ( | 11-29-2012 |
| 065045000 | With glass part forming from shapeless molten glass | 17 |
| 20110203321 | APPARATUS FOR SEALING A JOINT BETWEEN VESSELS FOR CONVEYING MOLTEN GLASS - A sealing apparatus for use in conveying molten glass from a first vessel to a second vessel, wherein at least a portion of the first vessel is nested within the second vessel without contact between the first and second vessels, and a flexible member comprising a gas-tight seal separates an atmosphere enclosed by the sealing apparatus and an ambient atmosphere. The sealing apparatus is useful for flexibly sealing a non-contact joint between conduits for supplying molten glass to a forming body. | 08-25-2011 |
| 20120125048 | REFRACTORY MATERIALS - Refractory materials are provided which contain P | 05-24-2012 |
| 065047000 | In mold cavity | 1 |
| 065048000 | And bonding to part in same mold cavity | 1 |
| 20100199719 | ARCHITECTURAL GLASS BLOCK WITH A FORMED SLOT AND METHOD OF MAKING SAME - A glass block, and method for making a glass block, having one or more formed slots on one or more edge faces of the block. The slots are formed during the molten state of the glass formation to maintain the mechanical integrity of the glass structure in architectural applications. The glass block may have an insert placed inside by way of the formed slot, the insert having performance and/or decorative properties. | 08-12-2010 |
| 065050000 | Forming and bonding glass sheet to metal part | 1 |
| 065051000 | Contacting metal with molten glass prior to forming sheet | 1 |
| 20100083704 | METHODS AND APPARATUS FOR MANUFACTURING GLASS SHEET - Methods and apparatus for manufacturing glass sheets that comprise the use of platinum group metal alloy or metal-alloy-clad vessels or conduits having alloy compositions including oxidizable species capable of undergoing redox reactions with molten glass components to suppress oxygen blister formation at glass contact surfaces. | 04-08-2010 |
| 065053000 | Forming plural sheets or sheet-like streams from same source | 13 |
| 20120159990 | GLASS PLATE MANUFACTURING METHOD AND MANUFACTURING DEVICE - The present invention relates to a method for manufacturing a glass sheet, the method including: running down molten glass along both side surfaces of a molded body arranged inside a molding chamber; joining and integrating the molten glass just under a lower edge part of the molded body; and drawing downward an integrated sheet-shaped glass ribbon out of an opening of the molding chamber. | 06-28-2012 |
| 20120180528 | HIGH STATIC FATIGUE ALUMINA ISOPIPES | 07-19-2012 |
| 20130067958 | METHOD OF MANUFACTURING GLASS SHEET - A method of manufacturing a glass sheet includes creating split flows of molten glass in a forming body ( | 03-21-2013 |
| 20090235692 | SAG CONTROL OF ISOPIPES USED IN MAKING SHEET GLASS BY THE FUSION PROCESS - Isopipes for use in making sheet glass by a fusion process are provided which exhibit reduced sag. The isopipes are composed of a zircon refractory which has a mean creep rate (MCR) at 1180° C. and 250 psi and a 95 percent confidence band (CB) for said mean creep rate such that the CB to MCR ratio is less than 0.5, the MCR and the CB both being determined using a power law model. The zircon refractory can contain titania (TiO | 09-24-2009 |
| 20110277504 | OVERFLOW DOWNDRAW GLASS FORMING METHOD AND APPARATUS - The present invention discloses improved methods and apparatus for forming sheet glass. In one embodiment, the invention introduces a counteracting force to the stresses on the forming structure in a manner such that the thermal creep which inevitably occurs has a minimum impact on the glass flow characteristics of the forming structure. | 11-17-2011 |
| 20120103019 | OVERFLOW DOWN-DRAW WITH IMPROVED GLASS MELT VELOCITY AND THICKNESS DISTRIBUTION - An apparatus for making a glass sheet using overflow fusion down-draw process comprising an inlet assembly having an elliptic cylindrical section coupled to a transition section which is, in turn, coupled to an open end of an open channel of an isopipe, and an overflow fusion down-draw process for making glass sheet. The glass melt flow has a high surface velocity profile conducive to the formation of a glass ribbon over the surface of the weirs and the wedge side surfaces with the desired mass distribution. | 05-03-2012 |
| 20120144864 | GLASS PLATE PRODUCTION METHOD AND PRODUCTION DEVICE - The present invention relates to a method for manufacturing a glass sheet, including: running down molten glass along both side surfaces of a molded body; joining and integrating the molten glass just under a lower edge part of the molded body; and pinching and downward delivering an end in a width direction of an integrated sheet-shaped glass ribbon by a roller pair, thereby drawing downward the glass ribbon and molding a center in the width direction of the glass ribbon to have an average thickness of 0.3 mm or less in which a pinching force is adjusted in a desired range. | 06-14-2012 |
| 20120111060 | GLASS PLATE PRODUCTION METHOD AND PRODUCTION DEVICE - The present invention relates to a method for manufacturing a glass sheet, the method including: running down molten glass along both side surfaces of a molded body; joining and integrating the molten glass just under a lower edge part of the molded body; and drawing downward and molding an integrated sheet-shaped glass ribbon, in which a guide member which contacts to an end in a width direction of a joined molten glass is provided, and a relative position and/or a relative angle between the guide member and a lower edge of the molded body is/are adjusted. | 05-10-2012 |
| 20120227445 | REFRACTORY OBJECT, GLASS OVERFLOW FORMING BLOCK, AND PROCESS FOR GLASS OBJECT MANUFACTURE - A refractory object can include at least 10 wt % Al | 09-13-2012 |
| 20120260696 | REFRACTORY OBJECT, GLASS OVERFLOW FORMING BLOCK, AND PROCESS OF FORMING AND USING THE REFRACTORY OBJECT - A refractory object can include at least 10 wt % Al | 10-18-2012 |
| 20120260695 | OVERFLOW DOWNDRAW GLASS FORMING METHOD AND APPARATUS - One embodiment of the present invention is an improved sheet glass forming apparatus. In another embodiment, a precise thermal control system redistributes the flow of molten glass at the weirs to counteract the degradation of the sheet forming apparatus which inevitably occurs during manufacturing. In yet another embodiment, the invention introduces a counteracting force to the stresses on the trough in a manner such that the thermal creep which inevitably occurs has a minimum impact on the glass flow characteristics of the forming trough. Another embodiment creates a variable external cross-section which provides hydraulic stresses that are in opposition to the surface tension and body force stresses and thus, reduces the influence of surface tension and body forces. | 10-18-2012 |
| 20120324954 | MAKING XENOTIME CERAMICS BY REACTIVE CERAMMING - A reactive-ceramming process for making YPO | 12-27-2012 |
| 20130008208 | METHOD OF MANUFACTURING GLASS SHEET - A method of manufacturing a glass sheet according to the present invention comprises the steps of creating split flows of molten glass in a forming body | 01-10-2013 |
| 065054000 | With reshaping glass preform prior to assembly or subsequent to bonding | 1 |
| 20120247154 | METHODS OF FABRICATING A GLASS RIBBON - Methods of fabricating a glass ribbon comprise the step of bending a glass ribbon in a cutting zone to provide a bent target segment with a bent orientation in the cutting zone. The methods further include the step of severing at least one of the edge portions from the central portion of the bent target segment within the cutting zone. Further methods are provided including the step of bending a glass ribbon in a bending zone downstream from a downward zone, wherein the glass ribbon includes an upwardly concave surface through the bending zone. The methods further include the step of severing at least one of the edge portions from the central portion of a target segment within the bending zone. | 10-04-2012 |
| 065056000 | With severing, perforating, or breaking of glass | 2 |
| 20100050693 | METHOD FOR PRODUCED LEAD-FREE CRYSTAL ICE, AND METHOD FOR MANUFACTURING DECORATIVE PLATE GLASS USING THE SAME - lead-free crystal ice that can be melt-adhered to a plate glass, has an average particle diameter (ø) of 0.2 mm to 1.0 mm, can be melted at a firing temperature (i.e. an internal temperature of a heating furnace) of 650 to 710° C., contains no heavy metals, and consists of optimal components present in optimal amounts. The lead-free crystal ice has the highest melting point within the range of 650 to 710° C. In addition, the surface of the lead-free crystal ice is not deformed or discolored in the atmosphere after the crystal ice is melt-adhered to the surface of a plate glass. | 03-04-2010 |
| 20120234048 | GLASS WELDING METHOD - Glass layers | 09-20-2012 |
| 065057000 | Relative rotation of work and heating means | 1 |
| 20110126590 | PROCESS FOR PRODUCING CELL ELECTROPHYSIOLOGICAL SENSOR AND APPARATUS FOR PRODUCING THE CELL ELECTROPHYSIOLOGICAL SENSOR - A process including holding sensor chip; holding glass tube surrounding the outer periphery of the side surface of sensor chip; applying a wind pressure to the side surface of glass tube from the outside of glass tube and melting glass tube to be glass-welded to the side surface of sensor chip. Thereby, the outer periphery of sensor chip can be surrounded by a highly hydrophilic glass tube. Thus, a cell electrophysiological sensor with high measurement accuracy can be produced. | 06-02-2011 |
| 065590100 | Of glass to metal part | 1 |
| 20100275655 | METHOD OF WELDING METALLIC GLASS WITH CRYSTALLINE METAL BY HIGH-ENERGY BEAM - [Problems] To provide a method of welding a metallic glass and a crystalline metal by shifting a high-energy beam scan area from a butting face thereof to the metallic glass side, to fall within a composition range required for glass phase formation of a metallic glass base material in a simplified assured manner. | 11-04-2010 |
