Abstract: The present invention is a method of partially galvanizing a piece obtained by injection molding, and a partially galvanize product produced by the method. The method of the present invention includes inserting a film of non-galvanizable material into a mold and then injecting a galvanizable material into the mold. After injection, the piece is taken out of the mold and the entire piece is run through a galvanizing process. Because of the film, a portion of the piece is galvanized, while the portion having the film is not galvanized.

Abstract: A method of decorating an article, the method comprising mixing a thermochromic ink with a transparent lacquer, applying the mixture on to part or all of the surface of an article, once the mixture is set, applying a second layer of dishwasher proof transparent lacquer.

Abstract: The invention provides methods of nanolithography and products therefor and produced thereby. In particular, the invention provides a nanolithographic method referred to as high force nanografting (HFN). HFN utilizes a tip (e.g., a scanning probe microscope (SPM) tip such as an atomic force microscope (AFM) tip) to pattern a substrate passivated with a resist, In the presence of a patterning compound, the tip is used to apply a high force to the substrate to remove molecules of the resist from the substrate, whereupon molecules of the patterning compound are able to attach to the substrate the form the desired pattern.

Abstract: Upon a substrate subsequent layers of elastic ink are jetted using an ink jet printing system. Each layer is immobilised by a immobilisation step before jetting the following layer.

Abstract: A method of decorating an article, the method comprising mixing a thermochromic ink with a transparent lacquer, applying the mixture on to part or all of the surface of an article, once the mixture is set, applying a second layer of dishwasher proof transparent lacquer.

Abstract: It is important for a CPP GMR read head that it have both high resistance as well as high cross-sectional area. This has been achieved by inserting a NOL (nano-oxide layer) though the middle of one or both of the two non-magnetic conductive layers. A key feature is that the NOL is formed by first depositing the conductive layer to about half its normal thickness. Then a metallic film is deposited thereon to a thickness that is low enough for it to still consist of individual islands. The latter are then fully oxidized without significantly oxidizing the conductive layer on which they lie. The remainder of the conductive layer is then deposited to a thickness sufficient to fully enclose the islands of oxide.

Abstract: The present invention relates to an holographic structure comprising an organic solvent based embossed layer, a metallic layer located onto the embossed layer, and an organic solvent based printing ink layer characterised in that the printing ink layer and the metallic layer are solely separated by a water solvent based primer.

Abstract: A method of making a glow in the dark puff heat transfer material and a composition of glow in the dark puff heat transfer material are presented in this invention. Unlike many prior art heat transfer methods, the heat transfer method utilized in the present invention adheres to OSHA regulations 29 CFR 1910.1017. The process of making the glow in the dark puff heat transfer material comprises the steps of applying one or more layers of a specific glowing material between the colors layers. The composition comprises specific amounts of a glow clear base, glow puff material, translucent inks, and an effective amount of glowing material. A printable adhesive base may be added to the composition if the glowing material is not mixed with the glow clear base or with the glow puff material. The composition is printed on a paper substrate and cured through a conventional dryer.

Abstract: A method for creating a multiwalled container capable of safely holding a desired liquid. The container may be formed using a mold or form or may be formed on the inside of an existing shell or structure, thereby incorporating the shell or structure as part of the container. The mold or shell is prepared and coated with a first, impermeable polymer layer. An interstitial material is then applied to the first polymer layer and a second impermeable polymer layer is then applied to the permeable, interstitial material. This creates an interstitial space between the two impermeable polymer layers. The process of applying interstitial material and additional polymer layers may be repeated as many times as necessary to achieve the desired number of impermeable walls within the container.

Abstract: A manufacture method for forming a disposable plate electrode with biological active film is used to cooperate with a biological sensor for analyzing composition and measuring concentration of a test sample according to electric effect resulted from a biochemical reaction. The plate electrode comprises at least an electrode portion for transmission of the electric effect as well as a biological active film that reacts with the test sample chemically or biochemically. The biological active film contains a carrier layer (cellulose, for example) for adsorbing and keeping the biological active substance (enzyme, for example), which, the carrier layer, can change the electrode portion from hydrophobic into hydrophilic and protect the biological active substance against impairment during relatively higher temperature drying process.

Abstract: When forming a beam shaped body by deposition using a focused ion beam device on the end of a sample, the present invention adopts a beam shaped film pattern formation method for irradiating the focused ion beam to a narrow strip shaped region from an open end of the sample to an outer space, and depositing a beam shaped film on the narrow strip shaped region, and sequentially shifting the irradiation region in a tip end direction to cause formation of a beam shaped body by growth of thin deposition layers, and causing formation of a deposition film of desired thickness on the thin deposition layers on the beam shaped body.

Abstract: A polymeric membrane system containing a polymeric membrane and a substrate with interstitial gaps. Polymeric membrane components reside within the interstitial gaps of the substrate and below the surface of the substrate. Also, the layer of polymeric membrane components is thinner than the cross-sectional thickness of the substrate.

Abstract: The invention provides a method of depositing a soluble material on a substrate comprising the steps of: loading the soluble material into an ink-jet print head; providing a flow of gas between the ink-jet print head and the substrate or adjacent thereto; and ejecting the material from the print head so as to deposit it on the substrate. Also provided is an apparatus for depositing a soluble material on a substrate, comprising an ink-jet print head and gas flow means for providing a flow of gas between the ink-jet print head and the substrate or adjacent thereto. In a preferred arrangement, heating of the substrate during deposition is also provided. In a most preferred arrangement, the deposition is additionally conducted on the basis of continuous formation of a sequence of partially overlapping dots.

Abstract: A printing-plating process on a plastic surface is disclosed, wherein a acid- and alkaline-resist ink is printed on the surface of plastic to be processed prior to the procedure of plating, such that the printed patterns pertain the property of worn-proof and high adherence.

Abstract: Electrically conducting printable webs of plastic having upper and lower sides, at least one of said sides being provided with a primer layer for printing pretreatment, comprising a substance selected from the group consisting of polyurethanes, acrylates, polyester resins with isocyanates or combinations thereof, on which another layer containing an electrically conducting organic polymer is coated.

Abstract: A deposition method includes contacting a substrate with a first initiation precursor and forming a first portion of an initiation layer on the substrate. At least a part of the substrate is contacted with a second initiation precursor different from the first initiation precursor and a second portion of the initiation layer is formed on the substrate. The substrate may be simultaneously contacted with a plurality of initiation precursors, forming on the substrate and initiation layer comprising components derived from each of the plurality of initiation precursors. An initiation layer may be contacted with a deposition precursor, forming a deposition layer on the initiation layer. The deposition layer may be contacted with a second initiation precursor different from the first initiation precursor forming a second initiation layer over the substrate.

Abstract: A silicon rich anti-reflective coating (30) is formed on a layer (10) in which narrow linewidth features are to be formed. Prior to the formation of a photoresist layer (50), the anti-reflecting coating (30) is exposed to excited oxygen species to reduce photoresist poisoning.

Abstract: A method of providing a track (12) on a substrate (10) includes a first step wherein a first liquid (1) is applied to the substrate (10) in accordance with a desired double pattern (11) and, upon solidification of said first liquid, a second step wherein a second liquid (2) is applied within the double pattern (11), forming the track (12) upon solidification. The double pattern (11) laterally bounds the track (12). The liquids (1, 2) may be applied by a dispenser or an ink jet printer. The first and the second step may be carried out in one operation, wherein the application of the first liquid (1) has a lead (3) over the application of the second liquid (2). A narrow track (12) may be formed when the first liquid (1) has a head group that adheres to the substrate (10) and a tail that repels the second liquid (2).

Abstract: A decorative polymeric ribbon material produced by cutting a sheet or web of flexible material into strips of decorative polymeric ribbon material such that the decorative polymeric ribbon material can be wrapped about items and formed into bows and decorative ornamentations containing ruffles, loops and curved segments. The decorative polymeric ribbon material can be a polymeric material or a laminated polymeric material having at least a portion of one surface thereof modified to provide a texture or appearance simulating the texture or appearance of paper while maintaining the structural and mechanical characteristics of the polymeric material from which the decorative polymeric ribbon material is formed.

Abstract: An improved automotive grille and an improved method of making the automotive grille are provided. The automotive grille is built from aluminum and subsequently powder coating. Multiple stainless steel strips are adhered to the leading edge of the grille, thereby reducing moisture within the powder coating and improving the decorative appearance of the grille.

Abstract: A turbomachine component includes a silicon nitride substrate and a protective coating on the substrate. The protective coating includes a porous silicon nitride matrix and a noble metal infiltrated in the porous silicon nitride matrix.

Abstract: A label having sunken letters and/or designs and its manufacturing method are disclosed. The label according to the present invention comprises a sunken solidified layer for forming non-protruding letters and/or designs therein at bottom surface of the protrusion label; and a solidified sheet for forming a ground of the label in such a manner that the sunken solidified layer is formed therein. The label has a long life, easily expresses background colors, letters and/or designs of various types, shows beautiful appearance as it does not have the protrusion, has wide application, and can be produced on a large scale as being easy in the manufacturing process and having a good economical efficiency.

Abstract: There is disclosed a method for printing metallic inks wherein a fountain solution and a first imprint ink are concurrently deposited onto a printing plate. A foundation metallic ink is then deposited onto the first imprint ink followed by depositing a second imprint ink is then onto the metallic ink. One or more layers of process ink colors can then be deposited onto the second imprint ink. The fountain solution is adjusted to have a pH of from about 3.7 to about 3.9 and the metallic ink is provided to have a tack of from about 14 to about 16.

Abstract: Ceramic pigment-based, chemically-modified porous coatings can be used for enhancing image permanence of ink-jet image printing. Specifically, a porous coated media sheet, comprising a media substrate, having a porous coating coated thereon comprising a modified ceramic pigment including a fixer group and a stabilizer group, each covalently attached to the ceramic pigment is disclosed. Additionally, a method and system for preparing permanent ink-jet images is also provided.

Abstract: A material is impregnated into leather by incorporating the material into micro-capsules and then applying said micro-capsules to said leather material by means of a suitable process. A roller coating process is described in which the material is applied to a roller under which said leather material passes whilst compressed. Alternatively, the micro-capsules may be applied to said leather by drumming-in in a wet process.

Abstract: A method and apparatus for spatter painting wherein an open-loop paint applicator which can be a paint roller cover having a set of elongated interconnected members or fibers that are rolled in a shallow layer of paint, preferably a thixotropic paint, to randomly draw paint from the paint reservoirs onto peripheral portions of the open-loop members that extend into the paint reservoir to produce a partially loaded paint roller cover having randomly spaced globules and droplets of paint thereon. When the partially loaded paint roller cover is rolled over a surface the paint globules and droplets located in a random pattern on the paint roller cover are transferred to a surface to produce a “spatter effect” even though the paint roller cover normally produces a textured surface.

Abstract: System and method for coating a medical appliance are provided. In accord with one embodiment, a system for applying a coating to a medical appliance having accessible patterned surfaces is provided. The system may include: a processor, an appliance support, and a solenoid type fluid dispensing head having an electromagnetically controlled valve. In the system, the appliance support may be adapted to hold the medical appliance and to provide direct access for a coating to contact the exposed external patterned surfaces of the medical appliance. The solenoid type fluid dispensing head in this system may move with respect to the medical appliance and may be in communication with a source of coating and with the processor. The processor in this system may contain commands that instruct the solenoid type fluid dispensing head to force coating onto the accessible patterned surfaces of the medical appliance in a pattern that correlates with the accessible patterned surfaces of the medical appliance.

Abstract: System and method for coating a medical appliance is provided. In accord with one embodiment, a system for applying a coating to a medical appliance having accessible patterned surfaces is provided. This system may include: a processor, a support, and a bubble jet printing head having individual printing nozzles. In this system the support may be adapted to hold the medical appliance and to provide direct access for a coating to contact the exposed external patterned surfaces of the medical appliance. The bubble jet printing head in this system may move with respect to the medical appliance and may be in communication with a source of coating and with the processor. The processor in this system may contain commands that instruct the bubble jet printing head to force coating onto the accessible patterned surfaces of the medical appliance in a pattern that correlates with the accessible patterned surfaces of the medical appliance.

Abstract: A method for forming a pattern on a surface of a panel substrate, includes electrically charging pattern-forming material particles, jetting out the electrically charged pattern-forming material particles through a nozzle by applying electrostatic force to the pattern-forming material particles to form a pattern, and fixing the pattern onto the panel substrate.

Abstract: An artwork is made on a surface of a matrix or plate with acrylic paint and then allowing the paint to dry. A layer of a backing material adhesive, such as an acrylic gel, is next applied to the acrylic layer and a backing material (such as paper or cloth) is placed upon the gel, and the wet gel is then allowed to dry. The dry artwork is then removed from the matrix. The invention allows the inclusion within a single image of other media (wet or dry), such as paper, fabric, dry acrylic elements, watercolor, waterbase crayons and pencils, felt pens, waterbase inks, water mixable oil paints, oil pastels and oil paint sticks because of the bonding abilities of acrylics.

Abstract: A method for metering active ingredient in powder form onto a predetermined area is characterized in that the active ingredient is transferred as electrically charged powder to a roll with the opposite charge, the active ingredient transferred to the roll is transferred to a two-dimensional substrate with an electric charge opposite to the active ingredient, the active ingredient transferred to the substrate is fixed by means of a heat treatment.

Abstract: The present invention is a method and device, which is suitable for use in an operating theater just prior to implantation, for selectively applying a medical coating to an implantable medical device, for example a stent. Disclosed is a device for use with a stent deployed on a catheter balloon. The device is configured to apply a medical coating of a desired thickness to the surface of a stent only. This is done by use of a drop-on-demand ink-jet printing system in association with an optical scanning device. The device is further configured so as to, if necessary, apply a plurality of layered coats, each layered coat being of a different coating material, and if appropriate, different thickness. The section of the housing in which the stent is held during the coating procedure is detachable from the housing base. The detachable housing section may be easily cleaned and re-sterilized or simply disposed of.

Abstract: Scented decorative grasses having an appearance and/or texture simulating the appearance and/or texture of cloth are disclosed, as are methods for making such scented decorative grasses from materials wherein at least one surface of the material is modified to simulate the appearance and/or texture of cloth.

Abstract: A method of forming a periodic array of nano-scale objects using a block copolymer, and nano-scale object arrays formed from the method are provided. The method for forming the arrays generally includes the steps of depositing a block copolymer of at least two blocks on a substrate to form an ordered meso-scale structured array of the polymer materials, forming catalytic metal dots based on the meso-scale structure, and growing nano-scale objects on the catalytic dots to form an ordered array of nano-scale objects.

Abstract: A deposition method includes contacting a substrate with a first initiation precursor and forming a first portion of an initiation layer on the substrate. At least a part of the substrate is contacted with a second initiation precursor different from the first initiation precursor and a second portion of the initiation layer is formed on the substrate. The substrate may be simultaneously contacted with a plurality of initiation precursors, forming on the substrate and initiation layer comprising components derived from each of the plurality of initiation precursors. An initiation layer may be contacted with a deposition precursor, forming a deposition layer on the initiation layer. The deposition layer may be contacted with a second initiation precursor different from the first initiation precursor forming a second initiation layer over the substrate.

Abstract: An apparatus and method for manufacturing a pharmaceutical dose which dispenses a variable selectable quantity of at least one pharmaceutical onto a pharmaceutical receiving medium. The quantity of the dispensed pharmaceutical(s) are controllably dispensed to customize each pharmaceutical dose to suit the needs of a particular user. The apparatus is coupled by an external telecommunication network to a remote signal source for receiving pharmaceutical quantity and type data for custom manufacturing a pharmaceutical dose. In one aspect, a replaceable cartridge contains a reservoir carrying at least one pharmaceutical component and a fluid drop generator which is mountable in the fluid dispenser. The reservoir may contain a number of separate compartments, each carrying different pharmaceutical component.

Abstract: An ornament is provided that is useful in causing negative ions to be generated from the surface, thereby improving the immunity strength, improving psychological stability and bodily functions, improving the discharge of egesta and the function of the respiratory organs, and reducing fatigue of the person wearing the ornament. The ornament includes a plating layer which is formed by mixing a pulverized multiple element mineral powder and a pulverized sandstone powder. The negative ions are always generated, which act on the blood of a human body and put the human body in a state that is slightly inclined towards negative ions, thereby causing the body to be balanced, the metabolism to become activated, and the body to become healthy and resistant to aging.

Abstract: Printing inks and printing systems which contain near infrared fluorescent compounds and U.V. absorbing pigments provide print media with coatings, sense marks and data images containing NIRF compounds and U.V absorbing pigments with improved light stability. These printing inks and printing systems can be modified for use in a wide variety of printing methods. The print media obtained contains detectable NIRF compounds after the equivalent of 6 months exposure to indoor U.V. light.

Abstract: Provided is a substrate manufacturing technique for forming patterns on substrates with the aid of an ink-jet systems. Relates to a substrate manufacturing apparatus for forming arbitrary patterns on a substrate 1 from a fluid 11. This apparatus comprises an ink-jet print head 2 configured to allow the fluid 11 to be ejected onto the substrate 1; treatment means 3 for performing a specific treatment on the substrate 1; drive means 4 configured to allow the relative positions of the ink-jet print head 2, the treatment means 3, and the substrate 1 to be varied; and control means 5 for controlling the ejection of the fluid 11 from the ink-jet print head 2, the treatment performed by the treatment means 3, and the drive effected by the drive means 4. The control means 5 is configured to allow the treatment by the treatment means to be performed prior to the ejection of fluid from the ink-jet print head 2.

Abstract: The present invention relates to methods for selectively enhancing corrosion protection of fabricated metal parts. One method of the present invention includes providing a non-galvanized metal sheet to be processed to form the fabricated metal part; selecting a localized region on the non-galvanized metal sheet; roughening the localized region for acceptance of a protective coating; applying a protective coating to localized region; and fabricating the non-galvanized metal sheet into a fabricated metal part. Another method includes providing a galvanized metal sheet; selecting a localized region on the galvanized metal sheet; applying a protective coating to the localized region; and fabricating the galvanized metal sheet into a fabricated metal part. Yet another method includes selecting a localized region on a fabricated metal part; roughening the localized region for acceptance of a protective coating; and applying the protective coating to the localized region.

Abstract: A process for producing a laminate comprising individual layers, such process including a sequence of operations in which initially a support substrate is provided, to which at least two compositions, each of which is liquid under the processing conditions, are applied as individual layers, one on top of the other. Each composition comprises either one active pharmaceutical or cosmetic substance or one pharmaceutical or cosmetic auxiliary.

Abstract: This invention discloses an anti-charging layer for beam lithography and mask fabrication. This invention reduces beam displacement and increases pattern placement accuracy. The process will be used in the beam fabrication of high-resolution lithographic masks as well as beam direct write lithography of electronic devices. The anti-charging layer is formed by the use of metal films bound to metal ligating self-assembled monolayers (SAMs) as discharge layers.

Abstract: In a color A area coating stage, color A paint is coated on a vehicle body (12) to form a color A coating (PA). In a next border zone coating stage, a border zone coating (PB1) is formed by means of a rotary atomizing head type sprayer unit (31) which is tilted with respect to a coating surface of the vehicle body (12) and adapted to spray color B paint toward the vehicle body (12) solely by centrifugal force. In a succeeding belt zone coating stage, a belt zone coating is formed continuously from the border zone coating (PB1) by means of a tilted rotary atomizing head type sprayer unit. In a next remainder area coating stage, a remainder area coating is formed on remaining areas of the coating surface continuously from the belt zone coating. By these arrangements, sprayed color B paint particles are allowed to deposit and settle on the vehicle body (12) without rebounding when applying the border zone coating (PB), forming a clear and well-defined border line (BL).

Abstract: The invention relates to a process for the manufacture of a decorating paper with the following steps: application of resin and abrasion-resistant particles to the decorating paper and application of fibres and/or spherules to the abrasion-resistant particles.

Abstract: A coating method for a substrate defining a deposition region and an optional uncoated region, wherein the deposition region includes an intermediate region disposed between a first end region and a second end region, the method composed of: (a) dip coating a first layer of a coating solution including a liquid medium and a coating material only over the first end region; and (b) dip coating a second layer of the coating solution over the first layer, the intermediate region, and the second end region in the recited sequence.

Abstract: A multi-colored rattan stick is made by marking a plurality of subsections along the length of the stick. A first subsection of the stick is dipped into a first color bath containing a coloring agent. After the first subsection has dried, second and subsequent subsections are sequentially dipped into respective color baths, and dried between each dipping. The various coloring agents can be different tones of the same color.

Abstract: The invention relates to a process of repairing a MCrAlY-coating of an article, which has being exposed to the hot gases of, for example, a gas turbine. The MCrAlY-coating is examined and repaired only locally where it is needed and then, subsequently, on top of the MCrAlY-coating the article is aluminized and/or chromized, avoiding the stripping of the whole coating and re-coating over the entire surface of the article. This is for replenishing the coating of Al and/or Cr that become depleted during engine operation, in an easy, cost and time saving manner.

Abstract: The method of manufacturing the magnetic medium for data storage comprising magnetic segments (5) for data storage which alternate regularly with nonmagnetic segments, which method comprises deposition on a substrate (1) from a nonmagnetic material a material having low or zero initial magnetization and capable of varying its magnetic characteristics under the effect of irradiation. The mentioned material is laid on the substrate (1) as a layer (2) in a thickness corresponding to one of the overall size values of any one of the magnetic segment (5) being formed. Then the applied layer (2) is selectively irradiated so as to vary the magnetic characteristics of the material of the layer (2) on the irradiated segments before forming the magnetic segments (5) each having a maximum overall size the ratio between which and any other overall size of this magnetic segment is from 3.5:1 to 15:1.

Abstract: A process for the manufacturing of surface elements (1) which comprises a decorative upper layer (2) and a supporting core (5). A supporting core (5) with a desired format is manufactured and provided with an upper side (1′) and a lower side (4). The upper side (1′) of the supporting core (5) is provided with a décor , by for example printing, which décor (2′) is positioned after a predetermined fixed point on the supporting core (5). The upper side (1′) of the supporting core (5) is provided with a protecting, at least partly translucent, wear layer (2″) by for example spray coating, roller coating, curtain coating and immersion coating or by being provided with one or more sheets of &agr;-cellulose impregnated with thermosetting resin or lacquer.

Abstract: A method of printing on composite substrates particularly composite substrates of the type having a matrix impregnated with a resin such as an epoxy. The method is particularly applicable to carbon fiber substrates known as “pregs” or “pre-pregs.” The substrate is maintained in a cooled condition, is sheeted and provided with a carrier. The surface is top coated with a UV curing ink. After curing, an image is applied using UV curable inks. After printing, the substrates are maintained in a cold condition for subsequent processing into items such as tubes, rods or the like.