Class / Patent application number | Description | Number of patent applications / Date published |
428164000 | Containing metal or metal compound | 42 |
20080260998 | Metal-Coated Textile - An improved metal coated textile and its production method where the coating of metal is deposited onto the textile through sputtering process in thickness between 20 to 2000 angstroms, with less than 5% variance in thickness across the entire length and width of the textile with width up to and over 10000 mm and length up to and over 1000 meters. The improved sputtering process utilizes longer cathodes, arrangements of metal target(s), tension controller with tension meter(s), guard(s), cylinder cover(s), and control over the textile while traveling through the chamber. The metal layer deposited is highly adhesive to the textile and is suitable for producing clothing, swim wear, diving suit, tent, cushion, wall paper, curtain, carpet, protective cover, screen window, equipment casing, and various other items. The metal layer confers characteristics such as anti-bacterial, deodorizing, improved metallic appearance and texture, electrical conductivity, heat-shielding, heat retention, and dirt repellency to the textile. | 10-23-2008 |
20090022958 | AMORPHOUS METAL-METALLOID ALLOY BARRIER LAYER FOR IC DEVICES - A method for fabricating an amorphous metal-metalloid alloy layer for use in an IC device comprises providing a substrate in a reactor that includes a dielectric layer having a trench, pulsing a metal precursor into the reactor to deposit within the trench, wherein the metal precursor is selected from the group consisting of CpTa(CO) | 01-22-2009 |
20090186194 | Batch Process for Coating Nanoscale Features and Devices Manufactured From Same - A process for coating of at least one conformal thin film simultaneously onto the surface of a plurality or batch of substrates having nanoscaled features is provided. The process involves exposing a batch of substrates to a supercritical fluid mixture in a controlled environment, and subsequently heating and cooling the substrate, in the presence of the supercritical fluid mixture, beyond a threshold temperature at which film growth can be enabled to initiate conformal thin film deposition on the surface of the substrate and within the nanoscaled features. The supercritical fluid mixture may be generated in a manner so as to maintain a necessary concentration level of the precursor material to permit sufficient thin film growth within the controlled environment. The supercritical fluid mixture may also be introduced into the controlled environment in a manner which minimizes precipitation or loss of solubility of the precursor material in the mixture. A system of thin film deposition of a batch of substrates is also provided. | 07-23-2009 |
20100028610 | Decorative member and process for manufacturing the same - A decorative member includes a transparent layer, a first decorated layer, and a second decorated layer. The first decorated layer is disposed on the transparent layer's rear surface. The second decorated layer is disposed on the transparent layer's rear surface. The transparent layer's rear surface has an irregular configuration that includes indented portions and indent-free portions. The indented portions dent toward the transparent layer's front surface. The indent-free portions protrude toward the transparent layer's rear surface. The first decorated layer is disposed directly on the rear surface of the transparent layer partially. The second decorated layer is made of a film that includes resin, and is laminated on the first decorated layer and on the transparent layer's rear surface entirely. | 02-04-2010 |
20100178468 | ULTRA-THIN MICROPOROUS/HYBRID MATERIALS - Ultra-thin hybrid and/or microporous materials and methods for their fabrication are provided. In one embodiment, the exemplary hybrid membranes can be formed including successive surface activation and reaction steps on a porous support that is patterned or non-patterned. The surface activation can be performed using remote plasma exposure to locally activate the exterior surfaces of porous support. Organic/inorganic hybrid precursors such as organometallic silane precursors can be condensed on the locally activated exterior surfaces, whereby ALD reactions can then take place between the condensed hybrid precursors and a reactant. Various embodiments can also include an intermittent replacement of ALD precursors during the membrane formation so as to enhance the hybrid molecular network of the membranes. | 07-15-2010 |
20100255260 | SLURRY-BASED COATING TECHNIQUES FOR SMOOTHING SURFACE IMPERFECTIONS - An article may include a substrate defining a surface imperfection and a coating deposited over the substrate. The coating does not substantially reproduce the surface imperfection, and the coating comprises mullite and at least one rare earth silicate, rare earth oxide, alumina, boron oxide, alkali metal oxide, alkali earth metal oxide, silicon, barium strontium aluminosilicate, barium aluminosilicate, strontium aluminosilicate, calcium aluminosilicate, magnesium aluminosilicate, or lithium aluminosilicate. In some examples, the coating may be a first coating deposited from a slurry over the substrate, and a second coating may be deposited over the first coating. In other examples, a first coating that substantially reproduces the surface imperfection may be deposited over the substrate, and the coating that does not substantially reproduce the surface imperfection may be deposited over the first coating. | 10-07-2010 |
20110076456 | LENS ARRAYS AND METHODS OF MAKING THE SAME - In general, in a first aspect, the invention features a method that includes depositing a first material on a surface of an article to form a layer including the first material. The surface of the article includes a plurality of protrusions and the layer including the first material forms a plurality of lenses. Each lens corresponds to a protrusion on the substrate surface. | 03-31-2011 |
20110097548 | Multilayer Film - A multilayered formable packaging film and a method of manufacturing the film are disclosed. The film is suitable for making blisters either by thermoforming or cold forming. The visible surface of the film has unique features preventing counterfeiting, which features are retained on the film even after blister formation. The film has a thickness not exceeding 1050 microns. The film substrate has a 10-500 micron thickness, is devoid of plasticizer and comprises at least one polymeric resin. A coat of an ester acrylic based primer having a 0.1-1 micron thickness is on a first surface of the substrate. A metallized layer with non-uniform thickness between 0.001 to 0.3 micron is deposited on the coat and embossed. A base having a thickness of 50-1000 microns is on the second surface, the base comprising at least one polymeric resin. | 04-28-2011 |
20110159243 | DECORATING MATERIAL WITH CUBIC EFFECT - A decorating material with cubic (3D) effect and a method for manufacturing the same are disclosed, wherein the material includes a resin layer formed on a substrate to have a convexo-concave pattern, a metallic film and a light opaque film sequentially formed on a convex portion or on a concave portion, wherein the convex portion or the concave portion is formed with a light penetration unit through which light is penetrated. | 06-30-2011 |
20110256355 | LOW-K DIELECTRIC FUNCTIONAL IMPRINTING MATERIALS - A polymerizable composition includes an organic modified silicate selected from the group consisting of silsesquioxanes having the composition RSiO | 10-20-2011 |
20110281074 | DECORATIVE MEMBER - A decorative member ( | 11-17-2011 |
20110281075 | DECORATIVE MEMBER - A decorative member composing a casing includes: a resin layer ( | 11-17-2011 |
20110287227 | METHOD FOR PRODUCING A METAL-OXIDE-COATED WORKPIECE SURFACE WITH PREDETERMINABLE HYDROPHOBIC BEHAVIOUR - It is proposed to produce a workpiece ( | 11-24-2011 |
20120171428 | Method for Producing a Visible Covering - The invention relates to a method for producing a visible covering ( | 07-05-2012 |
20120207982 | COMPOSITE MOLDED ARTICLE - Provided is a composite molded article which can increase resistance to peeling at an interface and suppress excessive peeling of a fiber-reinforced polymer material portion even when thermal shock is repeatedly applied. The composite molded article comprises a metal member using metal as a base material and having a surface; and a fiber-reinforced polymer material portion coated on at least part of the surface of the metal member and having a polymer material as a matrix and a plurality of reinforcing fibers for reinforcing the matrix. The surface of the metal member has a plurality of projections juxtaposed regularly or randomly at a pitch distance greater than diameters of the reinforcing fibers. The respective facing projections form enterable spaces which part of the matrix enters and at least part of the reinforcing fibers can enter. | 08-16-2012 |
20130034701 | RESIN COMPOSITION AND COMPOSITE MADE BY SAME - A resin composition used to being injection molded to metal to make composite of resin and metal, comprises 40% to 90% by weight of main resin, 5% to 30% by weight of crystallization modifier; and 0% to 40% by weight of filler. The main resin comprises one or more ingredients selected from a group consisting of one or more ingredients selected from polyamide polymers. The resin composition has a low crystallization temperature and an appropriate crystallization rate. | 02-07-2013 |
20130059123 | SUPERHYDROPHOBIC SURFACES - Surfaces having a hierarchical structure—having features of both microscale and nanoscale dimensions—can exhibit superhydrophobic properties and advantageous condensation and heat transfer properties. The hierarchical surfaces can be fabricated using biological nanostructures, such as viruses as a self-assembled nanoscale template. | 03-07-2013 |
20130101799 | PROCESS FOR PRODUCING A MOULDING AND MOULDING - The invention provides a process for producing a moulding ( | 04-25-2013 |
20130122259 | FEATURES FOR MITIGATING THERMAL OR MECHANICAL STRESS ON AN ENVIRONMENTAL BARRIER COATING - An article may include a substrate comprising a matrix material and a reinforcement material, a layer formed on the substrate, an array of features formed on the layer, and a coating formed on the layer and the array of features. The article may have improved thermal and/or mechanical stress tolerance compared to an article not including the array of features formed on the layer. | 05-16-2013 |
20130129983 | SILICON CARBIDE STABILIZING OF SOLID DIAMOND AND STABILIZED MOLDED AND FORMED DIAMOND STRUCTURES - A technique allows diamonds, whether synthetic or naturally occurring, and regardless of shape, to resist high temperatures in an oxidizing environment. This is accomplished by coating the diamond with silicon carbide (SiC). The resulting product may be referred to as SiC-stabilized diamond. A further benefit with respect to diamond jewelry is that by applying SiC to the diamond jewel, a unique pattern is made by small variations in the film thickness. These variations appear under UV and X-ray examination, and along with a unique and invariant weight, provide a unique signature to the jewel. | 05-23-2013 |
20130143000 | Forming Patterned Graphene Layers - An apparatus and method for forming a patterned graphene layer on a substrate. One such method includes forming at least one patterned structure of a carbide-forming metal or metal-containing alloy on a substrate, applying a layer of graphene on top of the at least one patterned structure of a carbide-forming metal or metal-containing alloy on the substrate, heating the layer of graphene on top of the at least one patterned structure of a carbide-forming metal or metal-containing alloy in an environment to remove graphene regions proximate to the at least one patterned structure of a carbide-forming metal or metal-containing alloy, and removing the at least one patterned structure of a carbide-forming metal or metal-containing alloy to produce a patterned graphene layer on the substrate, wherein the patterned graphene layer on the substrate provides carrier mobility for electronic devices. | 06-06-2013 |
20130189490 | GRAIN ORIENTED ELECTRICAL STEEL SHEET - A grain oriented electrical steel sheet reduces local exfoliation of insulating coating films and thus has excellent corrosion resistance and insulation properties. The grain oriented electrical steel sheet may be obtained by, assuming that a | 07-25-2013 |
20140030488 | PANEL WITH ANTI-FINGERPRINT PROPERTY AND MANUFACTURING METHOD THEREOF - The present disclosure relates to a film-attached panel having an anti-fingerprint property and a manufacturing method thereof. The film-attached panel includes a base material, a base layer attached on a surface of the base material, an aluminum deposition layer attached on the base layer, the aluminum deposition layer being processed to have hairlines, a passivation layer disposed on the aluminum deposition layer, and a glossy coating layer formed on the passivation layer, wherein a depth of the hairline processed on the aluminum deposition layer is in the range of 0.25 to 0.35 microns. | 01-30-2014 |
20140044925 | PROTECTIVE COVER MADE WITH SAPPHIRE AND METHOD OF MANUFACTURING SAME - A protective cover includes a substrate, a pattern layer, and an oil resistance layer. The substrate is made of sapphire and includes an upper surface and a lower surface. The pattern layer covers on some portions of the upper surface. The oil resistance layer is coated on a side of the pattern layer opposite to the substrate and the other portions of the upper surface without being covered with the pattern layer. | 02-13-2014 |
20140099476 | ADDITIVE MANUFACTURE OF TURBINE COMPONENT WITH MULTIPLE MATERIALS - A method for additive manufacturing with multiple materials. First ( | 04-10-2014 |
20140127467 | METAL ALLOYS FOR THE REFLECTIVE OR THE SEMI-REFLECTIVE LAYER OF AN OPTICAL STORAGE MEDIUM - A silver-based magnesium alloy thin film is provided for the semi-reflective coating layer of optical discs. This alloy has moderate to high reflectivity and reasonable corrosion resistance in the ambient environment. | 05-08-2014 |
20140242343 | LAMINATION TRANSFER FILMS FOR FORMING EMBEDDED NANOSTRUCTURES - Transfer films, articles made therewith, and methods of making and using transfer films that include embedded nanostructures are disclosed. The articles include a sacrificial template layer having a first surface and a second surface having a structured surface opposite the first surface and a thermally stable backfill layer applied to the second surface of the sacrificial template layer. The thermally stable backfill layer has a structured surface conforming to the structured surface of the sacrificial template layer and the sacrificial template layer comprises inorganic nanomaterials and sacrificial material. The sacrificial material in the sacrificial template layer is capable of being cleanly baked out while leaving a densified layer of inorganic nanomaterials on the structured surface of the thermally stable backfill layer. | 08-28-2014 |
20140272310 | COATING INTERFACE - In one example, article comprising a substrate defining an outer surface; a plurality of joint conduits formed in the outer surface of the substrate, wherein each conduit of the plurality of joint conduits exhibits an undercut configuration; and a coating formed on the outer surface of the substrate, wherein the coating substantially fills the plurality of joint conduits formed in the surface of the substrate. | 09-18-2014 |
20140356580 | COMPOUND HEAT SINK - The present invention provides a compound heat sink, mainly comprising a graphite layer and a metal layer. The graphite layer has a first embedding structure on a surface; the metal layer has a second embedding structure on a surface and corresponding to the first embedding structure. The graphite layer and the metal layer are bonded by the first and second embedding structures for increasing the bonding strength between two heterogeneous materials as well as reducing the interfacial heat resistance. Thereby, the stability of heat dissipation performance can be improved. | 12-04-2014 |
20140363631 | METHOD FOR INTEGRALLY MOLDING METAL AND RESIN AND METAL-RESIN COMPOSITE STRUCTURE OBTAINABLE BY THE SAME - A method for integrally molding a metal and a resin and a metal-resin composite structure obtainable by the same are provided. The method comprises forming a nanopore in a surface of a metal sheet; melting a thermoplastic resin on the surface of the metal sheet formed with the nanopore; and injection molding the thermoplastic resin onto the surface of the metal sheet. The thermoplastic resin includes a mixture of a main resin and a polyolefin resin, the main resin is a polycarbonate, and the polyolefin resin has a melting point of about 65° C. to about 105° C. | 12-11-2014 |
20150024167 | METAL ALLOYS FOR THE REFLECTIVE OR THE SEMI-REFLECTIVE LAYER OF AN OPTICAL STORAGE MEDIUM - A silver-based magnesium alloy thin film is provided for the semi-reflective coating layer of optical discs. This alloy has moderate to high reflectivity and reasonable corrosion resistance in the ambient environment. | 01-22-2015 |
20150064409 | Method for Manufacturing Joint Member and Joint Member - There is provided a method for manufacturing a joint member obtained by joining a carbon fiber composite material containing a thermoplastic resin as a matrix and a metal. The method includes a step (i) of forming an uneven shape having a depth of 0.02 to 0.6 mm on a surface of the metal at a joining portion; a step (ii) of providing a thermoplastic resin layer having a thickness in the range of 5μm or more and 5 mm or less at a joining portion between the surface of the metal and a surface of the composite material; and a step (iii) of melting the thermoplastic resin layer by heating the joining portion to thereby combine the metal and the composite material into one. | 03-05-2015 |
20150086751 | Laminates, and Systems and Methods for Laminating - A frangible laminate includes first, second and third webs, and the second web is positioned between the first and third webs. The forming of the frangible laminate includes adhesively bonding a first plurality of sections of the second web to the first web, applying release material in order to inhibit at least some of any bonding between the first plurality of sections of the second web and the third web, and adhesively bonding a second plurality of sections of the second web to the third web. The frangible laminate is separated into a first laminate and a second laminate, so that the first laminate includes the first web and the first plurality of sections of the second web, and the second laminate includes the third web and the second plurality of sections of the second web. | 03-26-2015 |
20150111003 | MARKING STRUCTURE FOR TOOL SURFACE - A marking structure for a tool surface of a tool contains a marking area laser marked on a tool surface, a color zone pad printed or screen printed a color material in the marking area. The color zone is overlapped with the printing area. In another embodiment, a marking structure for a tool surface of a tool contains a color zone formed by printing a color material on the tool surface and a marking area connecting with the color zone. The color zone includes any one of a pattern, at least one number, at least one letter, a combination of the pattern and the at least one number, and a combination of the at least one letter and the pattern. | 04-23-2015 |
20150111004 | GRAIN-ORIENTED ELECTRICAL STEEL SHEET AND METHOD OF MANUFACTURING SAME - A grain-oriented electrical steel sheet has low iron loss properties obtained though magnetic domain refining treatment by a chemical means. The steel sheet has a linear groove extending in a direction forming an angle of 45° or less with a direction orthogonal to a rolling direction of the steel sheet, in which presence frequency of fine grains with a length in the rolling direction of 1 mm or less in a floor portion of the groove is 10% or less, including 0% indicative of the absence of fine grains, the groove is provided with a forsterite film in an amount of 0.6 g/m | 04-23-2015 |
20150118444 | METHODS OF MANUFACTURING SILICA-FORMING ARTICLES HAVING ENGINEERED SURFACES TO ENHANCE RESISTANCE TO CREEP SLIDING UNDER HIGH-TEMPERATURE LOADING - A method of forming an article includes forming a silicon-containing layer on a silicon-containing region of a surface of a substrate of the article; forming a plurality of channels and ridges in the silicon-containing layer; and forming at least one outer layer overlying the surface of the silicon-containing region. The plurality of channels and ridges may be formed by adding silicon-containing material to the silicon-containing layer. The channels and ridges may be formed by subtracting material from the silicon-containing layer. The channels and ridges may be formed by forming channels or grooves in the silicon-containing region of the surface of the substrate prior to formation of the silicon-containing layer. | 04-30-2015 |
20150344374 | JOINED MATERIAL AND METHOD OF MANUFACTURING SAME - A joined material and a method of manufacturing the joined material are provided which enable a metal layer and a carbon material layer to be easily joined to each other while making the thickness of the metal layer larger and which can inhibit failure. | 12-03-2015 |
20150344755 | Object with Selectable Adhesion - A surface with selectable adhesion is achieved by a shape memory alloy that is at least partly coated with a polymer forming a surface structure, thus allowing the adhesion force of the surface to be controlled. | 12-03-2015 |
20160020011 | METHODS OF FORMING MAGNETIC MATERIALS AND ARTICLES FORMED THEREBY - Methods of forming a layer of magnetic material on a substrate, the method including: configuring a substrate in a chamber; controlling the temperature of the substrate at a substrate temperature, the substrate temperature being at or below about 250° C.; and introducing one or more precursors into the chamber, the one or more precursors including: cobalt (Co), nickel (Ni), iron (Fe), or combinations thereof, wherein the precursors chemically decompose at the substrate temperature, and wherein a layer of magnetic material is formed on the substrate, the magnetic material including at least a portion of the one or more precursors, and the magnetic material having a magnetic flux density of at least about 1 Tesla (T). | 01-21-2016 |
20160168393 | Intumescent Coating | 06-16-2016 |
20160251970 | SEGMENTED CERAMIC COATING INTERLAYER | 09-01-2016 |
20190143656 | PRODUCTS CONTAINING GRAPHENE-MEDIATED METALLIZED POLYMER COMPONENT | 05-16-2019 |