| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 427265000 | Plural nonuniform coatings | 40 |
| 20080299315 | METHOD OF MANUFACTURING DISPLAY PANEL - In a method of manufacturing a display panel that includes a base and a printed layer printed on the base by inkjet printing, a color UV curable ink is deposited on a predetermined portion of the base for forming a color printed portion of the printed layer, and a transparent UV curable ink is deposited in at least one of a first depression provided by the color printed portion on a surface of the base and a second depression formed on a surface of the color printed portion for forming a transparent printed portion. | 12-04-2008 |
| 20080311300 | Composition and Use Thereof - The composition is suitable for the provision of monolayers on selected surfaces. Thereto, it comprises a first compound able to form a monolayer on a first surface, and a second compound able to form a monolayer on a second surface that is different from the first surface, which first and second compounds are chosen such as to be mutually at least substantially inert. The selected surfaces may be present on a single substrate, which allows homogenization, and the provision of masking surfaces covering part of the underlying surfaces. The selected surfaces may alternatively present on different substrates, allowing the use of a printer with a standardized printing pattern. | 12-18-2008 |
| 20090053417 | METHOD OF FORMING ORGANIC MOLECULAR FILM STRUCTURE AND ORGANIC MOLECULAR FILM STRUCTURE - The present invention provides a method for forming an organic molecular film structure that can maintain desired functions characteristic to the organic material and that can be realized as a thin film, and the organic molecular film structure. An organic molecular film structure forming method for forming an organic molecular film on a base material comprises the steps of: i) forming a monomolecular film ( | 02-26-2009 |
| 20090098293 | METHOD OF PROVIDING AN ENCAPSULATION LAYER STACK, COATING DEVICE AND COATING SYSTEM - A coating system or encapsulation module | 04-16-2009 |
| 20090155465 | CHARGE ADHESIVE PROTECTIVE INK JET INKS - This invention relates to method of printing an ink jet image using an ink jet ink set comprising a colored aqueous ink and a substantially colorless aqueous ink, wherein the colored ink comprises a cationic coloring agent and the colorless ink comprises an anionic polymer or oligomer. | 06-18-2009 |
| 20090202726 | THERMAL TRANSFER SHEET, THERMAL TRANSFER SHEET SET, AND IMAGE FORMING METHOD - A thermal transfer sheet includes coloring material layers D | 08-13-2009 |
| 20090208653 | Ink set for inkjet recording and image recording method - The present invention provides an ink set for inkjet recording which has excellent resistance to light and can prevent image blurring and image deformation due to cracks or the like, wherein the ink set includes: a first liquid including a water soluble organic solvent, water and a pigment dispersed therein, in which an average particle diameter of the pigment is from 5 nm to 50 nm and a monodispersity of the pigment is 1.5 or less; and a second liquid which includes a component that can reduce a pH of the first liquid to less than 7 when contacted with the first liquid and can transform the first liquid from a region in which the dispersion of the pigment particles is stable to a region in which the dispersion of the pigment particles is unstable. The invention also provides a method of image recording using the ink set for inkjet recording. | 08-20-2009 |
| 20090246382 | INK SET FOR INKJET RECORDING, IMAGE RECORDING METHOD AND IMAGE RECORDING APPARATUS - The ink set for inkjet recording includes: a water-based ink containing pigment particles and 10 to 25 wt % of water-soluble high-boiling-point organic solvent having an SP value of not higher than 30; and a treatment liquid containing a fluidity reducing agent which reduces fluidity of the pigment particles by making contact with the water-based ink, and 10 to 25 wt % of water-soluble high-boiling-point organic solvent having an SP value of not higher than 30. | 10-01-2009 |
| 20090263584 | IMAGE QUALITY IMPROVEMENT TREATMENT LIQUID, IMAGE QUALITY IMPROVEMENT PROCESSING METHOD, IMAGE FORMING METHOD, AND IMAGE FORMING APPARATUS - An image quality improvement treatment liquid is disclosed that improves quality of an image formed on a medium by reacting with color materials in ink and agglutinating the color materials upon contact with the ink including water and color materials to be ionized in water or color materials to be ionized in water due to absorption with components having ionic characteristics in water. The image quality improvement treatment liquid includes at least one of cationic components and components capable of acidizing water, at least one of nonionic surfactant and amphoteric surfactant as a foaming agent, and water-insoluble fatty acid. | 10-22-2009 |
| 20100047456 | INK-JET RECORDING METHOD - An ink-jet recording method is provided. The method includes recording an image by ejecting, using an ink-jet method, an aqueous ink containing a colorant, resin particles, a water-soluble organic solvent and water onto a coated paper having a Ka value with respect to water, which is obtained by measuring liquid absorbability according to the Bristow method, of from 0.1 ml·m | 02-25-2010 |
| 20100092676 | INJET PRINTING METHOD AND INK SET - In an inkjet printing system using an emulsion ink, it is aimed that printing density is improved particularly for a normal paper. | 04-15-2010 |
| 20100104758 | PRINTING METHOD USING INK JET RECORDING AND PRINTING APPARATUS - A printing method that uses ink jet recording with a water-based ink set to form an image on a non-ink-absorbing or low-ink-absorbing recording medium, the method includes a printing step including recording with a color ink and recording with a resin ink performed after the recording with the color ink; and a drying step performed during the printing step and/or after the printing step. In the printing method, the water-based ink set includes the color ink containing a water-insoluble coloring agent and the resin ink not containing a coloring agent. The color ink contains the water-insoluble coloring agent, a resin component, a water-soluble solvent, and a surfactant. The resin ink contains a water-soluble resin solvent, a wax, and thermoplastic resin particles as a resin component that are insoluble in water but compatible in the water-soluble resin solvent. A content of the thermoplastic resin particles in the resin ink is 4% by mass or more and 12% by mass or less, and a content of the wax in the resin ink is 0.5% by mass or more and 6% by mass or less. | 04-29-2010 |
| 20100104759 | Printing Material Coating System and Method for Operating the System - A system for coating printing materials with coating fluids and a method for operating the system include, in a first step, coating printing material with a first coating fluid using a coating device of the system and keeping a first feed device of the system connected to the coating device for feeding the first coating fluid to the coating device using the first feed device. In a second step following the first step, printing material is coated with a second coating fluid using the coating device and a second feed device of the system is kept connected to the coating device for feeding the second coating fluid to the coating device using the second feed device. In a third step carried out after the first step and, at least to some extent, during the second step, the first feed device is flushed through with a cleaning fluid. | 04-29-2010 |
| 20100143593 | IMAGE RECORDING METHOD, RECORDED MATTER, AND IMAGE RECORDING SYSTEM - An image recording method includes forming an undercoat layer of an undercoat-forming ink composition containing a volatile component on a medium, and forming a color image layer of a process color ink composition on the undercoat layer in a state where the content of the volatile component remaining in the undercoat layer is 5% to 50% by mass. | 06-10-2010 |
| 20100247773 | ALLOY SUSCEPTOR WITH IMPROVED PROPERTIES FOR FILM DEPOSITION - Provided is a method for processing a wafer that includes providing an alloy susceptor including an exterior surface and a wafer contact surface. The exterior surface of the alloy susceptor is treated to produce a roughness of the exterior surface. The roughened exterior surface of is coated with a ceramic material. The alloy susceptor including the ceramic-coated roughened exterior surface is positioned in a wafer process chamber. A plurality of layers of a film are deposited on the ceramic-coated roughened exterior surface of the alloy susceptor, wherein a first adhesion exists between the plurality of layers of the film and the ceramic material coated on the roughened exterior surface of the alloy susceptor that is greater than a second adhesion that would exist between the plurality of layers of the film and a non-roughened exterior surface of the alloy susceptor without the ceramic material. | 09-30-2010 |
| 20100272899 | METHOD FOR PRINTING ON HOUSINGS - A printing method comprises: providing a metal housing; printing a first ink coating on the metal housing and drying the first ink coating at a temperature of about 100-150° C. for about 15-25 minutes, the first ink coating including epoxy resin; printing a second ink coating on the first ink coating and drying the second ink coating at a temperature of about 100-150° C. for about 15-25 minutes, the second ink coating including epoxy resin; and printing a third ink coating on the second ink coating and drying the third ink coating at a temperature of about 100-150° C. for about 60-120 minutes, the third ink coating including epoxy resin. | 10-28-2010 |
| 20110274839 | Cantilevers for deposition - Cantilever design for patterning from a cantilever tip can be improved with, for example, a recessed area surrounding the cantilever tip. A device for printing nanoscopic and microscopic patterns includes at least one cantilever having a front surface, a first side edge, a second side edge, and a first end which is a free end and a second end which is a non-free end. The front surface includes at least one first sidewall disposed at the first cantilever side edge and at least one second sidewall disposed at the second cantilever side edge opposing the first cantilever side edge, at least one channel, adapted to hold a fluid, disposed between the first and second sidewalls, wherein the channel, the first sidewall, and the second sidewall extend toward the cantilever free end but do not reach the free end, and a base region having a boundary defined by the first edge, the second edge, and the cantilever free end and also the first sidewall, second sidewall, and the channel, wherein the base region comprises a tip extending away from the cantilever front surface. Improved deposition can result. Fluidic inks comprising biomolecules can be patterned successfully. | 11-10-2011 |
| 20110318492 | COATING APPARATUS AND METHOD - A rotary-style coating machine of the type capable of applying coatings to various web substrates in the commercial offset web and/or digital web printing industry. The coating machine includes a coating cylinder and a plate cylinder that are rotatably mounted within the machine. The coating cylinder includes a coating sleeve removably mounted on a mandrel, and the plate cylinder includes a plate sleeve removably mounted on another mandrel. The machine further includes a unit for depositing a coating material on the coating sleeve as the coating cylinder is rotated. The plate cylinder is operative to receive the coating material from the coating sleeve. An impression cylinder supports a web substrate that receives the coating material from the plate sleeve. | 12-29-2011 |
| 20120189776 | METHODS, SYSTEMS AND APPARATUS FOR CLEAR TEXTURING - Disclosed are a method and system of rendering clear texturing on a media substrate. According to one exemplary method, one or more parameters are provided by a user, via a UI (User Interface), to control the clear texturing process, wherein the parameters are associated with, but are not limited to, media sheet area coverage, object type the clear texturing process is to be performed on and maximum/minimum percentage of clear material to be used for rendering the clear texturing. | 07-26-2012 |
| 20120213931 | MULTI-COMPONENT COATING METHOD FOR POROUS SUBSTRATES - The disclosure relates to a coating method including the steps of providing a multi-component coating composition including two or more components, applying each component to a porous substrate, mixing each component with at least one other component thereby causing at least two components to undergo a chemical reaction. | 08-23-2012 |
| 20120225208 | FABRICATION METHOD AND FABRICATION APPARATUS FOR SOLID SHAPED PRODUCT - A solid shaped product is fabricated by using a liquid. | 09-06-2012 |
| 20120231167 | MULTILAYER MASKING TAPE - A masking tape for use in applications where a coating material is applied to a surface for defining a sharp edge of the portion of the surface that is coated. A masking tape may include a reinforcing strip releasably attached to the non-adhesive side of conventional masking tape comprising a substrate with an adhesive layer on one side. The reinforcing strip extends longitudinally along the length of the substrate with one edge substantially aligned with, and preferably flush with, one longitudinal edge of the substrate and acts as a separate means to cut through a coating or film more efficiently than the masking tape alone, while subsequently leaving the masking tape in place until the preferred time of removal. | 09-13-2012 |
| 20120288627 | THREE-DIMENSIONAL ELECTROMAGNETIC METAMATERIALS AND METHODS OF MANUFACTURE - In certain embodiments, a method may include a computing device generating a digital representation of a metamaterial structure and sectioning the digital representation to generate a plurality of substantially two-dimensional layer layouts. The method may also include a printing device sequentially fabricating each of a plurality of substantially two-dimensional layers based on a corresponding one of the plurality of substantially two-dimensional layer layouts. | 11-15-2012 |
| 20120321798 | COMPOSITE MATERIAL COMPRISING SILICON MATRIX AND METHOD OF PRODUCING THE SAME - Proposed are a composite material, wherein non-penetrating pores that are formed in a silicon surface layer are filled up with a metal or the like without leaving any voids by using the plating technique, and a method of producing the composite material. A composite material, which has been packed at a high accuracy, or in other words, in which little voids are left, can be obtained by filling up non-penetrating pores that are formed from a silicon surface ( | 12-20-2012 |
| 20130034657 | Method of Manufacturing an Offset Printing Substrate and Method of Manufacturing a Display Substrate Using the Same - In a method of manufacturing an offset printing substrate and a method of manufacturing a display substrate, the method includes forming a first coating layer on a base substrate on which is formed a first concave pattern having a first width. An intermediate substrate is also formed upon the first coating layer of the base substrate, the intermediate substrate having a pattern corresponding to the first concave pattern. An offset printing substrate is also formed upon the pattern of the intermediate substrate, the offset printing substrate having a second concave pattern is formed to correspond to the pattern of the intermediate substrate, and the second concave pattern has a second width smaller than the first width. | 02-07-2013 |
| 20130122201 | METHODS OF FORMING SHOCK ABSORBING SURFACES ON OBJECTS, AND OBJECTS PRODUCED USING SAME - In some embodiments, a mobile device accessory has a mobile device cover defining a mobile device receiving region, and a resilient material on the mobile device cover. The resilient material defines a plurality of peaks extending generally away from the mobile device receiving region. The plurality of peaks increase the surface area of the mobile device cover and provide shock absorption. The peaks are formed rising a robot. Other objects having such a resilient material, and methods of making and distributing such objects, are also disclosed. | 05-16-2013 |
| 20130149449 | METHOD OF FORMING A PIGMENT LAYER AND A FOAM LAYER ON A SUBSTRATE AND A CONTAINER TREATED BY THE SAME - The method of forming a pigment layer and a foam layer on a substrate includes steps of material preparation, material coating, pigment coating and foaming. A coating material layer is coated on the substrate, and then a pigment layer is coated on the substrate before the coating material layer is foamed. Thus the pigment can be coated on the substrate more quickly, easily and more accurately. | 06-13-2013 |
| 20130216712 | METHOD FOR PRODUCING A NON-SLIP COATING - A method for producing a non-slip coating on a carrier which is in the form of a sheet or can be unwound off a roll and has a first and second surface, comprising the steps of applying a single-colored or multi-colored printing process on at least the first surface of the carrier, and subsequently applying a covering layer comprising varnish to at least the first surface of the carrier, wherein the varnish is applied in the form of a grid by a printing process on the first surface of the carrier for improving friction-related treatment characteristics of the carrier for subsequent cutting, stamping or folding steps, and wherein said grid is applied with a maximum layer thickness of 7 g/m | 08-22-2013 |
| 20130266729 | METHOD FOR MAKING STRIP SHAPED GRAPHENE LAYER - A method for making a strip shaped graphene layer includes the following steps. First, a carbon nanotube structure on a surface of a metal substrate is provided. The carbon nanotube structure includes at least one drawn carbon nanotube film. The at least one drawn carbon nanotube film includes carbon nanotube segments substantially parallel to each other and separated from each other by a strip-shaped gap. Second, a catalyst layer is disposed on the carbon nanotube structure, and parts of the catalyst layer are contacted to the surface of the substrate in the strip-shaped gaps. Third, the carbon nanotube structure is removed to obtain s plurality of catalyst strips on the surface of the substrate. Fourth, graphene strips are grown on the number of catalyst strips. Third, the metal substrate is annealed to obtain the strip shaped graphene layer. | 10-10-2013 |
| 20130316081 | SYSTEM AND METHOD FOR THREE-DIMENSIONAL PRINTING - A system and method for three-dimensional printing are provided. One three-dimensional printing system includes a first printing surface configured to hold a first three-dimensional object. The three-dimensional printing system also includes a second printing surface configured to hold a second three-dimensional object. The three-dimensional printing system includes at least one printing head disposed adjacent to the first and second printing surfaces for printing the first and second three-dimensional objects. A vertical position of the first printing surface is controlled independently from a vertical position of the second printing surface. | 11-28-2013 |
| 20140120261 | Method of Forming Tool Marking Structure - A method of forming a tool marking structure includes: a coloring step of coloring a predetermined position of the first protective layer so as to form a marking area with a color layer and forming the first protective layer on a bottom surface of the marking area, and a second-time surface processing step of forming a second protective layer on a non-marking area of the tool and forming the first protective layer on a bottom surface of the second protective layer; wherein the color of the first protective layer is different from that of the second protective layer. | 05-01-2014 |
| 20140120262 | Method of Forming Tool Marking Structure - A method of forming a tool marking structure includes: a coloring step of coloring a predetermined position of the first protective layer so as to form a marking area with a color layer and forming the first protective layer on a bottom surface of the marking area, and a second-time surface processing step of forming a second protective layer on a non-marking area of the tool. | 05-01-2014 |
| 20140141168 | Additive Manufacturing with Polyamide Consumable Materials - A consumable material for use in an additive manufacturing system, the consumable filament comprising a polyamide blend of at least one semi-crystalline polyamide, and at least one amorphous polyamide that is substantially miscible with the at least one semi-crystalline polyamide, and a physical geometry configured to be received by the additive manufacturing system for printing a three-dimensional part from the consumable material in a layer-by-layer manner using an additive manufacturing technique. The consumable material is preferably capable of printing three-dimensional parts having good part strengths and ductilities, and low curl. | 05-22-2014 |
| 20140186532 | ARRAY PRINTING - The invention provides a method of printing, onto a substrate ( | 07-03-2014 |
| 20140212584 | METHOD OF MITIGATING ICE BUILD-UP ON A SUBSTRATE - The present invention is directed to a method of mitigating ice build-up on a substrate, comprising applying to the substrate curable film-forming compositions comprising isocyanate-functional curing agents, film-forming compositions with functional groups reactive with the isocyanates, acrylic polymers having polysiloxane side chains, and polysiloxanes. | 07-31-2014 |
| 20150010707 | Method for Marking a Tool - A method is provided for marking a tool. The method includes the steps of providing a dented mark in the tool, providing a first protection layer on the tool except the dented mark, and providing a second protection layer on the first protection layer. The first and second protection layers are made of colors that are selected so that when there is a scratch in the second protection layer, a color shown in the scratch is similar to the color of the second protection layer. | 01-08-2015 |
| 20150037502 | IMAGE RECORDING METHOD - An image recording method includes applying an ink containing a pigment and polymer particles to a region of a recording medium, and applying a liquid composition capable of destabilizing the dispersion of the pigment in the ink to the recording medium so as to cover at least part of the region of the recording medium. The liquid composition contains 6.0% by mass or more of at least one surfactant selected from the group consisting of the compounds expressed by General Formula (1) and the compounds expressed by General Formula (2) relative to the total mass of the liquid composition. The content of the polymer particles in the ink is 1.0% by mass or more relative to the total mass of the ink. | 02-05-2015 |
| 20150044372 | TREATMENT AGENT, METHOD FOR FORMING IMAGE, METHOD FOR PRODUCING TREATMENT AGENT, METHOD FOR PRODUCING FABRIC HAVING IMAGE, AND FABRIC HAVING IMAGE - Provided is a treatment agent used for forming an image on fabric, containing a resin emulsion and a metal salt. A pH of the treatment agent is in a range from 5.5 to 9. The pH may be adjusted using a pH adjuster. Examples of the pH adjuster include sodium bicarbonate, potassium carbonate, calcium carbonate, sodium hydroxide, sodium carbonate, triethanolamine, and N-butyl diethanolamine. | 02-12-2015 |
| 20150375261 | METHOD OF FORMING A PIGMENT LAYER AND A FOAM LAYER ON A SUBSTRATE AND A CONTAINER TREATED BY THE SAME - The method of forming a pigment layer and a foam layer on a substrate includes steps of material preparation, material coating, pigment coating and foaming. A coating material layer is coated on the substrate, and then a pigment layer is coated on the substrate before the coating material layer is foamed. Thus the pigment can be coated on the substrate more quickly, easily and more accurately. | 12-31-2015 |
| 427266000 | Glass or ceramic base | 1 |
| 20100159139 | METHOD FOR FORMING FINE PATTERN OF POLYMER THIN FILM - Provided is a method of forming a fine pattern of a polymer thin film using a phenomenon that another material having a large difference in surface energy in comparison with a polymer thin film pattern is dewetted on the polymer thin film pattern. Two polymer materials having a large difference in surface energy can be applied to readily and conveniently form a fine pattern of a polymer thin film of micrometer or sub-micrometer grade. | 06-24-2010 |
