Abstract: A tape dispenser having a tape housing adapted for receiving a tape roll of painting and caulking tape. The housing includes a closed front portion and an open rear portion. The rear portion is used for inserting the tape roll on a tape ring. The housing also includes a small semi-circular nose with one end of a flat first tape engaging surface and with one end of a flat second tape engaging surface extending outwardly from the nose at a selected acute angle “?”. The angle “?” provides for cutting the tape to an exact length to an intersection of two right angle surfaces. A large semi-circular handle is integrally formed at opposite ends of the first and second tape engaging surfaces. The handle is used for gripping the housing and dispensing tape therefrom.

Abstract: A method of manufacturing a honeycomb structure including a honeycomb unit includes forming a honeycomb molded body having a plurality of cells extending from a first end face to a second end face of the honeycomb molded body along a longitudinal direction of the honeycomb molded body and separated by a plurality of cell walls, placing the honeycomb molded body in a degreasing apparatus so that the first end face faces downward and the second end face faces upward, feeding introduced gas into the degreasing apparatus, degreasing the honeycomb molded body at a temperature of approximately 200° C. to approximately 400° C., and firing the degreased honeycomb molded body at a temperature of approximately 500° C. to approximately 900° C. to obtain the honeycomb unit.

Abstract: In a manufacturing method for a monolithic ceramic electronic component, a plurality of green chips arrayed in row and column directions which are obtained after cutting a mother block are spaced apart from each other and then tumbled, thereby uniformly making the side surface of each of the green chips an open surface. Thereafter, an adhesive is applied to the side surface. Then, by placing a side surface ceramic green sheet on an affixation elastic body, and pressing the side surface of the green chips against the side surface ceramic green sheet, the side surface ceramic green sheet is punched and stuck to the side surface.

Abstract: A method for stretching a carbon nanotube film includes providing one or more carbon nanotube films and one or more elastic supporters, attaching at least one portion of the one or more carbon nanotube films to the one or more elastic supporters, and stretching the elastic supporters.

Abstract: An apparatus for making a carbon nanotube film includes a substrate holder, a bar supplying device, a carrier device, and a stretching device arranged in alignment in that order. A method for making a carbon nanotube film is further provided.

Abstract: A tape applicator (51) for applying tape to a substrate, the tape applicator comprising a pair of nip rollers wherein the nip rollers comprise a tape roller (55) and a substrate roller (56), the tape applicator further comprising a tension roller (57) disposed in front of the substrate roller (56) to tension the substrate prior to feeding between the nip rollers, a tape feed and a drive for rotating the nip rollers.

Abstract: A method for laying carbon nanotube film includes following steps. A carbon nanotube film is provided. The carbon nanotube film includes a number of carbon nanotube strings substantially parallel to each other and extending along a first direction. The carbon nanotube film is stretched along a second direction substantially perpendicular with the first direction to form a deformation along the second direction. The carbon nanotube film is placed on a surface of a substrate. The deformation along the second direction is kept.

Abstract: In a method for manufacturing ceramic plates, a Pd paste which does not diffuse into ceramic is formed; metal films each having a thickness such that ceramic layers to be formed after firing are not connected to each other in the lamination direction are formed on surfaces of ceramic green sheets using the Pd paste; then, a firing treatment at a firing temperature, which is a high temperature at which no glass component remains on surfaces of the ceramic layers after the firing and which is equal to or lower than a decomposition temperature of a ceramic material forming the ceramic layers, is performed for a laminate; oxygen present at the interfaces between the ceramic layers and the metal layers is removed by immersing a sintered body in n-butyl alcohol so as to separate the ceramic layers and the metal layers.

Abstract: Disclosed is a method of manufacturing a nonshrinking multilayer ceramic substrate. The method includes forming at least one conductive via and an electrode pattern in at least one of a plurality of ceramic green sheets, laminating the ceramic green sheets to form a ceramic laminate, selectively forming a shrinkage inhibiting thin film of sinter-resistant powder on a region including the conductive via and a periphery thereof in at least one of two surfaces of the ceramic laminate using aerosol deposition, disposing a shrinkage inhibiting green sheet for suppressing the shrinkage of the ceramic laminate on at least one of the two surfaces of the ceramic laminate including the shrinkage inhibiting thin film to form a non-sintered multilayer ceramic substrate, and sintering the non-sintered multilayer ceramic substrate.

Abstract: A method of manufacturing a cut-out sintered ceramic sheet having a complex shape and a cut-out sintered ceramic sheet made according to the method, the method including forming a ceramic green sheet, sintering the formed ceramic green sheet, adhering a plastic resin film onto which adhesive is applied on at least one surface of the sintered ceramic sheet, and shearing the sintered ceramic sheet.

Abstract: A method of manufacturing a cut-out sintered ceramic sheet including forming a ceramic green sheet, sintering the formed ceramic green sheet, adhering a plastic resin film onto which adhesive is applied on at least one surface of the sintered ceramic sheet, and shearing the sintered ceramic sheet.

Abstract: Generally annular full tape thickness conductors are formed in single or multiple tape layers, and then stacked to produce an annular solid conductive wall for enclosing an electromagnetic isolation cavity. The conductors may be formed using punch and fill operations, or by flowing conductor-containing material onto the tape edge surfaces that define the interior sidewalls of the cavity.

Abstract: This producing method includes: a preparing step of preparing a pair of ceramic sintered bodies at least one of which is formed by a reaction sintering method and contains free silicon; a forming step of interposing a joining slurry between the joined surfaces of the pair of ceramic sintered bodies and thereafter drying the joining slurry, to form a fine particle layer, the joining slurry obtained by dispersing fine particles containing a carbon element in an organic solvent; and a joining step of heating the pair of ceramic sintered bodies in an inert atmosphere with the pair of ceramic sintered bodies held so that the fine particle layer is pressurized, to introduce the free silicon into the fine particle layer, thereby forming a joining layer containing at least silicon carbide so that the pair of ceramic sintered bodies are joined to each other, to obtain the ceramic joined body.

Abstract: A method for manufacturing a multilayer ceramic electronic component significantly reduces and prevents swelling or distortion when a conductive paste is applied to a green ceramic element body. A ceramic green sheet used in the method satisfies 180.56?A/B wherein A is a polymerization degree of an organic binder contained in the ceramic green sheet, and B is a volume content of a plasticizer contained in the ceramic green sheet.

Abstract: A tape dispenser assembly facilitates dispensing and cutting tape. The assembly includes a housing having side panels and upper wall and lower walls extending between the side panels. The upper and lower walls are spaced defining an interior space therebetween. A forward edges of the upper and lower walls form a dispensing opening in the housing. A tape formed into a roll positioned in the interior space. The roll of tape has a free end extendable through the dispensing opening. A roller assembly coupled to the housing includes a roller positioned proximate the dispensing opening. A non-sticky side of the tape abuts the roller proximate the free end of the tape. A blade is positioned proximate the roller assembly to cut the tape by manipulating the housing such that the blade engages the tape.

Abstract: A laminated ceramic matrix composite structure is strengthened with one or more layers of a metal reinforcement. The metal reinforcement is selected to provide optimal strength and thermal compatibility with the ceramic matrix composite. The metal reinforcement includes an outer oxidized layer that bonds to the ceramic matrix composite. It may also include a barrier layer on the surface of the metal that helps prevent further oxidation. The structure is formed using standard composite prepreg layup techniques.

Abstract: A method of manufacturing ceramics includes: placing, on a base material, a first slurry in which a metal oxide powder is dispersed; applying a magnetic field to the first slurry to solidify the first slurry, thereby forming an under coat layer made of a first compact; placing, on the under coat layer, a second slurry containing a metal oxide powder constituting the ceramics; applying a magnetic field to the second slurry to solidify the second slurry, thereby forming a second compact to obtain a laminated body of the second compact and the under coat layer; and obtaining the ceramics made of the second compact by removing the under coat layer from the laminated body of the second compact and the under coat layer and then sintering the second compact, or sintering the laminated body of the second compact and the under coat layer and then removing the under coat layer.

Abstract: An adhesive material and articles incorporating the same is disclosed. The adhesive material includes at least three of epoxy resin; impact modifier; flexibilizer, blowing agent; curing agent; and filler. The adhesive material is preferably used for structural adhesion but may be used for sealing, baffling or reinforcing an article of manufacture such as an automotive vehicle.

Abstract: A bonding material and a related manufacturing method are disclosed in which an unfired ceramic body A, internally formed with a cavity portion or a surface formed with a concaved portion, and an unfired ceramic body B are bonded to each other. The bonding material is applied to a bonding area between the unfired ceramic bodies A and B in a thickness ranging from 10 to 25 ?m to provide a bonded body that is fired to obtain a ceramic bonded body. The bonding material contains an inorganic powder, an organic binder and an organic solvent in a composition to satisfy relationships 0?X—Z?2.6 and 0?Y—Z?2.6 where “X” represents a firing contraction ratio (%) of the unfired ceramic body A, “Y” a firing contraction ratio (%) of the unfired ceramic body B, and “Z” a firing contraction ratio of tie bonding material.

Abstract: Certain example embodiments of this invention relate to a frit slurry paste for use in assemblies (e.g., a vacuum insulated glass unit or a plasma display panel), and methods of making the same. Frit powder, binder material, and a water-based solvent are mixed together to form an intermediate mixture. The frit powder is substantially lead free, and the water-based solvent is provided at a first temperature. Additional water-based solvent is added to the intermediate mixture to form a frit slurry paste. The additional water-based solvent is provided at a second temperature, with the second temperature being lower than the first temperature. The binder material is provided at a concentration of 0.001%-20% by weight with respect to the frit slurry paste or the frit slurry paste absent the frit powder. The frit slurry paste has a bulk viscosity of 2,000-200,000 cps.