| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 427457000 |
DIRECT APPLICATION OF ELECTRICAL, MAGNETIC, WAVE, OR PARTICULATE ENERGY
| 3315 |
| 427058000 |
ELECTRICAL PRODUCT PRODUCED
| 1761 |
| 427331000 |
WITH POST-TREATMENT OF COATING OR COATING MATERIAL
| 1361 |
| 427248100 |
COATING BY VAPOR, GAS, OR SMOKE
| 1091 |
| 427256000 |
NONUNIFORM COATING
| 904 |
| 427200100 |
MEDICAL OR DENTAL PURPOSE PRODUCT; PARTS; SUBCOMBINATIONS; INTERMEDIATES (E.G., BALLOON CATHETER, SPLINT)
| 693 |
| 427008000 |
MEASURING, TESTING, OR INDICATING
| 618 |
| 427421100 |
SPRAYING
| 353 |
| 427162000 |
OPTICAL ELEMENT PRODUCED
| 353 |
| 427446000 |
SPRAY COATING UTILIZING FLAME OR PLASMA HEAT (E.G., FLAME SPRAYING, ETC.)
| 343 |
| 427299000 |
WITH PRETREATMENT OF THE BASE
| 337 |
| 427180000 |
SOLID PARTICLES OR FIBERS APPLIED
| 330 |
| 427212000 |
PARTICLES, FLAKES, OR GRANULES COATED OR ENCAPSULATED
| 253 |
| 427127000 |
MAGNETIC BASE OR COATING
| 193 |
| 427402000 |
APPLYING SUPERPOSED DIVERSE COATING OR COATING A COATED BASE
| 165 |
| 427230000 |
INTERIOR OF HOLLOW ARTICLE COATING
| 158 |
| 427430100 |
IMMERSION OR PARTIAL IMMERSION
| 146 |
| 427207100 |
COATING REMAINS ADHESIVE OR IS INTENDED TO BE MADE ADHESIVE
| 140 |
| 427140000 |
RESTORING OR REPAIRING
| 131 |
| 427243000 |
FORAMINOUS PRODUCT PRODUCED
| 113 |
| 427240000 |
CENTRIFUGAL FORCE UTILIZED
| 83 |
| 427294000 |
VACUUM UTILIZED PRIOR TO OR DURING COATING
| 81 |
| 427136000 |
COATING PAVEMENT OR THE EARTH (E.G., ROADMAKING, ETC.)
| 71 |
| 427226000 |
HEAT DECOMPOSITION OF APPLIED COATING OR BASE MATERIAL
| 69 |
| 427289000 |
WITH CUTTING, HOLDING, SEVERING, OR ABRADING THE BASE
| 51 |
| 427428010 |
ROLLER APPLICATOR UTILIZED (E.G., PADDING, ETC.)
| 49 |
| 427209000 |
APPLICATION TO OPPOSITE SIDES OF SHEET, WEB, OR STRIP (EXCLUDING PROCESSES WHERE ALL COATING IS BY IMMERSION)
| 49 |
| 427133000 |
MOLD COATING
| 40 |
| 427429000 |
BRUSH OR ABSORBENT APPLICATOR UTILIZED
| 36 |
| 427154000 |
REMOVABLE PROTECTIVE COATING APPLIED
| 36 |
| 427160000 |
COATING HAS X-RAY, ULTRAVIOLET, OR INFRARED PROPERTIES
| 32 |
| 427157000 |
FLUORESCENT OR PHOSPHORESCENT COATING
| 29 |
| 427177000 |
WITH WINDING, BALLING, ROLLING, OR COILING
| 27 |
| 427420000 |
FALLING CURTAIN OF COATING MATERIAL UTILIZED (I.E., CURTAIN COATING)
| 25 |
| 427444000 |
PRETREATMENT, PER SE, OR POST-TREATMENT, PER SE (WITHOUT CLAIMED COATING)
| 20 |
| 427011000 |
FRICTIONAL APPLICATION (I.E., RUBBING SOLID COATING MATERIAL ON BASE)
| 18 |
| 427145000 |
LATENT IMAGE FORMED OR DEVELOPED
| 18 |
| 427001000 |
BODY MEMBER PRINTING (E.G., FINGERPRINTING, ETC.)
| 17 |
| 427007000 |
FRAUD OR TAMPER DETECTING
| 15 |
| 427004000 |
PLANT MEMBER OR ANIMAL SPECIMEN COATING
| 14 |
| 427401000 |
COMBINED
| 13 |
| 427146000 |
TRANSFER OR COPY SHEET MAKING
| 13 |
| 427171000 |
WITH STRETCHING OR TENSIONING
| 11 |
| 427161000 |
TRANSPARENCY OR TRANSLUCENCY INCREASED (E.G., MAKING WINDOW ENVELOPES, ETC.)
| 7 |
| 427144000 |
HECTROGRAPHIC OR COPYING SURFACE MAKING
| 6 |
| 427242000 |
RUMBLING OR TUMBLING | 5 |
| 20090104349 | PRODUCTION OF SECONDARY AGGREGATES - Secondary aggregates are prepared from inert waste fines, from, for example, quarrying and combustion processes, using a combination of accelerated carbonation and tumbling, such that aggregate particles composed of successive layers of solid carbonate-based reaction products form a hard aggregate suitable for use in concrete. The process may carried out by loading the starting materials, and if necessary, water into a cylindrical drum that is rotatable about its horizontal axis, and the interior is charged with a carbon dioxide atmosphere, or mounted within a larger vessel that holds a carbon dioxide atmosphere. Aggregates are formed as coatings on core particles as tumbling proceeds, and the coatings are hardened by in situ formation of carbonates by reaction with the carbon dioxide. | 04-23-2009 |
| 20090258140 | Method for coating the outer surface of a cylinder sleeve - The invention relates to a method for coating the outer surface of a cylinder bushing. A small segment of the cylinder bushing is immersed into a melt which consists of a zinc based alloy comprising alloy components of aluminium and copper and which extends in a continuous manner over the entire axial length of the cylinder bushing, after cleaning and roughening the external surface, and the cylinder bushing is rotated about the longitudinal axis thereof, until a metal layer is formed on the outer surface of the cylinder bushing, which extends in a continuous manner over the entire length thereof and which consists of a zinc based alloy. The copper prevents an oxide skin, which is difficult to remove from the metal layer, from forming and also increases rigidity in the binding layer. | 10-15-2009 |
| 20110287182 | APPARATUS AND METHOD FOR COLORING LANDSCAPE MATERIAL - An apparatus for coloring landscape material, including a frame and a drum rotatably mounted on the frame. The drum includes a longitudinal centerline and a wall that defines a chamber. A plurality of projections are formed on an inner surface of the wall in the chamber. A colorant delivery system includes a dispensing structure extending into the chamber and defines outlets for emitting colorant. The outlets are generally offset from the drum longitudinal centerline. The colorant delivery system delivers colorant to the chamber, and the landscape material is tumbled in the chamber by the projections when the drum rotates. A method for coloring landscape material is also provided. | 11-24-2011 |
| 20130202792 | BOND COATING POWDER, METHOD OF MAKING, AND A METHOD OF APPLYING AS BOND COATING - Provided is bond coating powder and method of making. The method includes providing a powder including a plurality of parent particles. The method includes providing a plurality of dispersoids. The method includes mechanically alloying the powder and the plurality of dispersoids at ambient temperature. The mechanical alloying operable to provide a selective occupation of the plurality of dispersoids in a grain boundary area of the plurality of parent particles providing the bond coating powder. The plurality of dispersoids occupy about 18 percent to about 30 percent of the grain boundary area of the bond coating powder. | 08-08-2013 |
| 20140234541 | DEVICE FOR HOLDING AND CENTERING ELONGATED OBJECTS DURING ROTATIONAL SURFACE TREATMENT - The present invention relates to a device ( | 08-21-2014 |
| 427223000 |
FLAME CONTACT | 4 |
| 20090202717 | Anti-Fouling Coatings for Combustion System Components Exposed to Slag, Ash and/or Char - A coating for use in combustion systems includes a plurality of refractory metal particles in a ceramic, glass or metal matrix disposed on surfaces of the system that are prone to slag, ash, and/or char buildup during operation of the combustion system. The coating is effective to prevent any substantial interaction with the slag, ash, and/or char. | 08-13-2009 |
| 20090311423 | Surface-assisted combustion deposition deposited coatings, and/or methods of making the same - Certain example embodiments relate to surface-assisted combustion deposition deposited coatings (e.g., metal oxide coatings) formed on glass substrates, and/or methods of making the same. In certain example embodiments, a wet-applied (e.g., sol-gel applied) pre-treatment coating increases a number of nucleation sites on or proximate to the at least one surface of the substrate to be coated, and/or increases a number of binding sites or forms a binding medium on the at least one surface of the substrate to be coated. A combustion deposition deposited growth is formed thereon. The pre-treatment coating may facilitate the combustion deposition depositing of coatings. | 12-17-2009 |
| 20130095240 | ANTIMICROBIAL FINISH ON FABRICS - A formulation is provided which comprises at least one phenolic compound in an amount of about 0.5 to about 1.2% of the mass of the formulation; at least one fragrance in an amount of about 0.3 to about 1.0% of the mass of the formulation; and at least one alcohol in an amount of about 90 to about 99% of the mass of the formulation. Said formulation is surfactant free and being capable of rendering anti-microbial finish to fabrics. And also, a process for preparing a fabric with anti-microbial finish is provided. | 04-18-2013 |
| 20130344240 | DEPOSITION OF ULTRA-THIN INORGANIC OXIDE COATINGS ON PACKAGING - An apparatus and method for depositing an ultra-thin inorganic coating on to a packaging film substrate is disclosed. Flame pretreatment enhances the quality of the inorganic coating. Multiple coating layers may be deposited onto the substrate by passing the substrate over various one or more flame head configurations in either a stand-alone or in-line manufacturing environment. | 12-26-2013 |
| 427445000 |
MISCELLANEOUS | 3 |
| 20080220176 | PICKERING EMULSIONS, AQUEOUS DISPERSIONS OF POLYMERIC PARTICLES, COATINGS, AND PARTICLE NETWORKS FORMED THEREFROM - Disclosed are Pickering emulsions, related aqueous dispersions, and methods for their preparation, both of which include the use of a water insoluble promoter. Also disclosed are coatings and particle networks formed therefrom. | 09-11-2008 |
| 20090246397 | RESIST SOLUTION SUPPLY APPARATUS, RESIST SOLUTION SUPPLY METHOD, AND COMPUTER STORAGE MEDIUM - The present invention is a resist solution supply apparatus for supplying a resist solution to a coating nozzle for discharging the resist solution to a substrate, including: a resist solution supply source storing the resist solution therein; a supply tube for supplying the resist solution from the resist solution supply source to the coating nozzle; a heating means provided on a side of the resist solution supply source along the supply tube for heating the resist solution in the supply tube to a predetermined temperature higher than room temperature; and a cooling means provided on a side of the coating nozzle along the supply tube for cooling the resist solution in the supply tube down to room temperature. | 10-01-2009 |
| 20100310782 | METHOD AND APPARATUS FOR APPLYING A SEALANT - A method and apparatus for applying a sealant includes a first chamber that retains a first substance. A second chamber retains a second substance, wherein the second chamber is in selective fluid communication with the first chamber. A third chamber retains a third substance. A first actuator is configured to cause fluid communication of the first and second chambers to allow the first and second substances to comingle and form a first mixture. A second actuator is configured to urge the first mixture and the third substance out of the sealant application apparatus. | 12-09-2010 |
| 427005000 |
RADIOACTIVE BASE OR COATING | 3 |
| 20110014353 | CORROSION RESISTANT NEUTRON ABSORBING COATINGS - A method of forming a corrosion resistant neutron absorbing coating comprising the steps of spray or deposition or sputtering or welding processing to form a composite material made of a spray or deposition or sputtering or welding material, and a neutron absorbing material. Also a corrosion resistant neutron absorbing coating comprising a composite material made of a spray or deposition or sputtering or welding material, and a neutron absorbing material. | 01-20-2011 |
| 20140193570 | Jet Spouted Bed Type Reactor Device Having A Specific Profile For CVD - The invention relates to a jet spouted bed reactor, comprising a cylindrical area, a gas injection pipe at the base of the cylindrical area, and a transition area, connecting the upper end of the pipe to the base of the cylindrical area, this transition area having a convex profile in a plane extending through the axis (YY′) of flow of a fluid in the pipe. | 07-10-2014 |
| 20140220230 | NUCLEAR FUEL - This invention relates to a method of preparing nuclear fuel including the step of depositing at least two adjacent series of layers ( | 08-07-2014 |
| 427399000 |
BASE SUPPLIED CONSTITUENT | 2 |
| 20110097501 | Methods for extracting titanium metal and useful alloys from titanium oxides - Titanium-containing metal is extracted from its oxide(s) by way of a redox chemical reaction with a reducing metal. Specifically, an intimate mixture of the reducing metal and the titanium-containing oxide(s) is produced, in a preferred embodiment, by forming a metal-ceramic composite material featuring these two constituents. In a preferred embodiment, the composite body is made by infiltrating the reduced metal in molten form, into a permeable mass containing the titanium-bearing oxide(s). Concurrently or subsequent to infiltration, the redox reaction is carried out to transform the composite material, thereby forming a complex intimate mixture containing one or more oxides of the reducing metal, a titanium-containing metal, which could include an alloy of titanium with the reducing metal and/or one or more intermetallic compounds of titanium and the reducing metal, and possibly also some residual reducing metal, which itself possibly contains some titanium metal. One technique for removing the titanium-containing metal is to then comminute the transformed composite material while the metal constituent is still molten, such as by high speed shearing. The dispersed ceramic constituents can then be permitted to separate, and the metal component containing the titanium can simply be decanted. | 04-28-2011 |
| 20120135153 | GLASS SUBSTRATE FOR MAGNETIC DISK AND MANUFACTURING METHOD OF THE SAME - A glass substrate for a magnetic disk of the invention is a disk-shaped glass substrate for a magnetic disk where the substrate has a main surface and end face and is subjected to chemical reinforcement treatment, and is characterized in that the penetration length in the uppermost-portion stress layer on the main surface is 49.1 μm or less, and that assuming that an angle between the main surface and compressive stress in the stress profile by a Babinet compensator method is θ, a value y of {12·t·ln(tan θ)+(49.1/t)} is the penetration length in the uppermost-portion stress layer or less. | 05-31-2012 |
