| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 264239000 |
MECHANICAL SHAPING OR MOLDING TO FORM OR REFORM SHAPED ARTICLE
| 2659 |
| 264405000 |
DIRECT APPLICATION OF ELECTRICAL OR WAVE ENERGY TO WORK (E.G., ELECTROMAGNETIC WAVE, PARTICULATE, MAGNETIC, INDUCTION HEAT, SONIC, ELECTROSTATIC ENERGY, ETC.)
| 986 |
| 264500000 |
DIRECT APPLICATION OF FLUID PRESSURE DIFFERENTIAL TO PERMANENTLY SHAPE, DISTORT, OR SUSTAIN WORK
| 845 |
| 264100100 |
OPTICAL ARTICLE SHAPING OR TREATING
| 795 |
| 264165000 |
FORMING CONTINUOUS OR INDEFINITE LENGTH WORK
| 736 |
| 264400100 |
WITH MEASURING, TESTING, OR INSPECTING
| 664 |
| 264041000 |
PORE FORMING IN SITU (E.G., FOAMING, ETC.)
| 448 |
| 264138000 |
WITH SEVERING, REMOVING MATERIAL FROM PREFORM MECHANICALLY, OR MECHANICALLY SUBDIVIDING WORKPIECE
| 386 |
| 264603000 |
OUTSIDE OF MOLD SINTERING OR VITRIFYING OF SHAPED INORGANIC ARTICLE OR PREFORM
| 318 |
| 264005000 |
FORMATION OF SOLID PARTICULATE MATERIAL DIRECTLY FROM MOLTEN OR LIQUID MASS (E.G., LIQUID COMMINUTING)
| 291 |
| 264109000 |
FORMING ARTICLES BY UNITING RANDOMLY ASSOCIATED PARTICLES
| 251 |
| 264219000 |
WITH STEP OF MAKING MOLD OR MOLD SHAPING, PER SE
| 226 |
| 264401000 |
STEREOLITHOGRAPHIC SHAPING FROM LIQUID PRECURSOR
| 216 |
| 264400000 |
LASER ABLATIVE SHAPING OR PIERCING (I.E., NONETCHING, DEVOID OF CHEMICAL AGENT OTHER THAN AIR)
| 204 |
| 264129000 |
WITH PRINTING OR COATING OF WORKPIECE (OUT OF MOLD)
| 173 |
| 264101000 |
VACUUM TREATMENT OF WORK
| 152 |
| 264016000 |
DENTAL SHAPING TYPE
| 111 |
| 264039000 |
WITH STEP OF CLEANING, POLISHING, OR PRECONDITIONING APPARATUS FOR USE
| 103 |
| 264232000 |
DISPARATE TREATMENT OF ARTICLE SUBSEQUENT TO WORKING, MOLDING, OR SHAPING
| 101 |
| 264104000 |
FORMING ELECTRICAL ARTICLES BY SHAPING ELECTROCONDUCTIVE MATERIAL
| 87 |
| 264004000 |
ENCAPSULATING NORMALLY LIQUID MATERIAL
| 87 |
| 264402000 |
DIRECT APPLICATION OF ELECTRICAL OR WAVE ENERGY TO HEAT THE MOLD (E.G., ELECTROMAGNETIC WAVE, PARTICULATE, MAGNETIC, SONIC, ELECTROSTATIC ENERGY, ETC.)
| 69 |
| 264103000 |
WITH TWINING, PLYING, BRAIDING, OR TEXTILE FABRIC FORMATION
| 68 |
| 264031000 |
FORMING STRUCTURAL INSTALLATIONS IN SITU
| 67 |
| 264290100 |
CARBONIZING TO FORM ARTICLE
| 66 |
| 264069000 |
TREATMENT OF MATERIAL BY VIBRATING, JARRING, OR AGITATING DURING SHAPING
| 60 |
| 264340000 |
TREATING SHAPED OR SOLID ARTICLE
| 47 |
| 264360100 |
REPAIRING OR RESTORING CONSUMER USED ARTICLES FOR REUSE
| 43 |
| 264028000 |
WITH STEP OF COOLING TO A TEMPERATURE OF ZERO DEGREES C. OR BELOW
| 36 |
| 264370100 |
RECYCLING OF RECLAIMED OR PURIFIED PROCESS MATERIAL (NOT RECYCLED CONSUMER USED ARTICLES)
| 32 |
| 264078000 |
WITH INCORPORATING DYE SUSCEPTIBLE MATERIAL OR DYEING WORKPIECE
| 23 |
| 264238000 |
COMBINED
| 22 |
| 264085000 |
UTILIZING SPECIAL INERT GASEOUS ATMOSPHERE OR FLUSHING MOLD WITH INERT LIQUID
| 21 |
| 264164000 |
UNCONFINED DRAWING OR EXTENDING OF A PLASTIC MASS TO MAKE ARTICLE
| 21 |
| 264021000 |
SHAPING OR TREATING LUMINESCENT MATERIAL
| 20 |
| 264073000 |
RANDOM VARIEGATED COLORING DURING MOLDING
| 14 |
| 264082000 |
REACTIVE GAS OR VAPOR TREATMENT OF WORK
| 14 |
| 264229000 |
PRESTRESSING SOLID BODY AND UNITING IN STRESSED CONDITION
| 11 |
| 264108000 |
ORIENTING OR ALIGNING SOLID PARTICLES IN FLUENT MATRIX MATERIAL
| 10 |
| 264086000 |
REMOVAL OF LIQUID COMPONENT OR CARRIER THROUGH POROUS MOLD SURFACE
| 10 |
| 264230000 |
UTILIZING HEAT RELEASABLE STRESS TO RESHAPE SOLID WORKPIECE (E.G., ELASTIC MEMORY, ETC.)
| 10 |
| 264300100 |
EXPLOSIVE OR PROPELLANT ARTICLE SHAPING OR TREATING
| 10 |
| 264228000 |
FORMING STRESSED CONCRETE ARTICLES
| 10 |
| 264081000 |
GAS OR VAPOR DEPOSITION OF ARTICLE FORMING MATERIAL ONTO MOLD SURFACE
| 9 |
| 264015000 |
SPHEROIDIZING OR ROUNDING OF SOLID PARTICLES
| 9 |
| 264030000 |
FURNACE LINING FORMATION OR REPAIR
| 7 |
| 264080000 |
FLAME CONTACT OR RESHAPING BY HEAT DECOMPOSITION OF WORK
| 7 |
| 264000500 |
SHAPING OR TREATING RADIOACTIVE MATERIAL (E.G., FISSIONABLE OR FERTILE, ETC.) | 4 |
| 20150294747 | CERAMIC NUCLEAR FUEL DISPERSED IN A METALLIC ALLOY MATRIX - Systems and methods for manufacturing metal fuel are described. Methods for fabricating a metal-fuel-matrix cermet nuclear fuel may include crushed ceramic particles combined with metallic fast reactor fuel via bottom pour casting or injection casting, or a powdered metallurgical process. A maximum quantity of crushed ceramic particles added to the metallic fuel must not exceed that which would fail to yield a continuous matrix of metal fuel. After a short irradiation period, the microstructure of the fuel may be substantially identical to that of injection cast fuel, without crushed ceramic particles, irrespective of the fabrication process. Thus, the extensive existing database for injection cast fuel, without crushed ceramic particles, may be an excellent indicator of expected irradiation performance. Each of the processes may contribute to a solution of the spent nuclear fuel problem and may denature Pu239 during the process. | 10-15-2015 |
| 20150310948 | FULLY CERAMIC NUCLEAR FUEL AND RELATED METHODS - Various embodiments of a nuclear fuel for use in various types of nuclear reactors and/or waste disposal systems are disclosed. One exemplary embodiment of a nuclear fuel may include a fuel element having a plurality of tristructural-isotropic fuel particles embedded in a silicon carbide matrix. An exemplary method of manufacturing a nuclear fuel is also disclosed. The method may include providing a plurality of tristructural-isotropic fuel particles, mixing the plurality of tristructural-isotropic fuel particles with silicon carbide powder to form a precursor mixture, and compacting the precursor mixture at a predetermined pressure and temperature. | 10-29-2015 |
| 20150321287 | LASER-DRIVEN HYDROTHERMAL PROCESSING - Systems for processing a material by submerging the material in a fluid and directing laser pulses at the fluid and the material for processing the material. An embodiment removes the surface of concrete, brick, or rock or minerals in a relatively gentle, energy-efficient, and controlled manner that also confines the material that is removed. | 11-12-2015 |
| 20160038655 | Methods and Devices For Three-Dimensional Printing Or Additive Manufacturing Of Bioactive Medical Devices - A method for manufacturing a bioactive implant including the steps of (a) forming a mixture of an bioactive agent and a setting agent capable of transitioning from a flowable state to a rigid state; (b) converting the mixture into a flowable state; and (c) transitioning the mixture into a solid state in a shape of the implant. | 02-11-2016 |
| 264079000 |
WITH APPLICATION OR BARRIER FOR VOLATILE COMPONENT MATERIAL TO MOLDED ARTICLE SURFACE | 3 |
| 20080290545 | Method for accommodating the use of chemicals that contain low amounts of VOC in an existing device where chemicals that contained high levels of VOC had previously been used and resultant product - This method to allow the use of low VOC (volatile organic compounds) solvents in blanket cleaning operations and the resultant product that is produced by this method involves the retrofitting of currently existing seals on printing press so that operators can use low VOC solvents in place of high VOC solvents. High VOC solvents are harmful to the atmosphere and humans alike. As VOC are lighter than the surrounding air, humans are subjected to inhalation of these harmful vapors which cause respiratory and other health ailments. The VOC continue to rise, mixing with nitrogen oxides, until they reach the troposphere forming thick layers of ozone or smog. The current movement of municipalities to limit the use of high VOC solvents have lead printers and others to use low VOC solvents which are inherently less evaporative than high VOC solvents. This lack of evaporation causes problems with having to handle greater volumes of waste to handle and dispose properly. Catch pans and basins designed to work in high VOC applications are insufficiently engineered to handle this increased waste and seals that are sized to fit the catch pans and basins are designed to be permeable to allow for the evaporation of the VOC. This method creates an impermeable seal with similar sizing to retrofit the existing seal allowing the user to simply change the seal versus changing the entire catch pan. | 11-27-2008 |
| 20090309252 | METHOD OF CONTROLLING EVAPORATION OF A FLUID IN AN ARTICLE - A method of controlling evaporation of a fluid, such as water, in an article includes the step of encapsulating the article with a film such that the fluid is prevented from evaporating from the article. The method further includes the step of heating the article encapsulated with the film to a first desired temperature for a first period of time while preventing the fluid from evaporating from the article. The method also includes the step of removing the film from the article after heating the article to the first desired temperature for the first period of time and, after the step of removing the film the article, the method includes the step of further heating the article to a second desired temperature for a second period of time while the fluid freely evaporates from the article. | 12-17-2009 |
| 20130234353 | METHOD AND APPARATUS FOR MOULDING PARTS MADE FROM COMPOSITE MATERIALS - The invention concerns a method of moulding a part ( | 09-12-2013 |
| 264084000 |
APPLYING EXPLOSIVE FORCE TO MAKE ARTICLE | 3 |
| 20100237528 | METHOD FOR MAKING VESSELS FOR IMPROVING THE MECHANICAL STRENGTH THEREOF - Manufacturing process of a container ( | 09-23-2010 |
| 20130264737 | METHOD OF MANUFACTURING A TRACK MEMBRANE - Method of manufacturing track membranes by penetration of working substances into and through the membrane matrix of polymer material is disclosed. The matrix is placed into holder that is inserted into one end of a tubular shell, the other end of which contains a cartridge with an explosive material and a working substance in the form of a supersaturated solution of a water-soluble salt. When the explosive material is detonated, the particles of the water-soluble salt interact with the matrix in the form of a high-speed jet with the velocity of particles in the range of 3800 to 4200 m/sec. As a result of penetrating of the particles into and through the material of the matrix, a plurality of holes is formed in the matrix. The track membranes are produced by slicing the membrane matrix after removal of the residue of the particles by washing the pierced membrane with water. | 10-10-2013 |
| 20150360422 | PRESSURIZED ANNEAL OF CONSOLIDATED POWDERS - Systems and methods for producing a dense, well bonded solid material from a powder may include consolidating the powder utilizing any suitable consolidation method, such as explosive shockwave consolidation. The systems and methods may also include a post-processing thermal treatment that exploits a mismatch between the coefficients of thermal expansion between the consolidated material and the container. Due to the mismatch in the coefficients, internal pressure on the consolidated material during the heat treatment may be increased. | 12-17-2015 |
| 264231000 |
APPLYING TENSILE STRESS TO WORKPIECE DURING HEAT CURING | 3 |
| 20090001630 | Method for forming composite components and tool for use therein - A method of making an aircraft component is provided, wherein the method comprises the steps of:
| 01-01-2009 |
| 20090032995 | METHOD FOR PRODUCING TRANSPARENT POLYMER FILM, TRANSPARENT POLYMER FILM PRODUCED BY THE METHOD, RETARDATION FILM, POLARIZER, AND LIQUID-CRYSTAL DISPLAY DEVICE - A method for producing a transparent polymer film, comprising heat-treating a polymer film containing a polymer and a plasticizer having a number-average molecular weight of from 500 to 10000 and having a repetitive unit, at a temperature T (unit, ° C.) satisfying the following formula (1): | 02-05-2009 |
| 20150061182 | Method for forming cylindrical armor elements - Methods for forming armored glass cylinders suitable for improving resistance of armor to armor piercing rounds, explosively formed penetrators, or other threats. Cool a cylindrical glass or ceramic element to a temperature below that of a cylindrical casing, place the cylindrical glass or ceramic element into the cylindrical casing while the cylindrical glass or ceramic element is cool, and seal the cylindrical casing and allow the temperature of the cylindrical glass or ceramic element to rise, such that the cylindrical casing compresses the cylindrical glass or ceramic element. Alternately, heat a metal cylindrical casing, press glass or ceramic into the cylinder while the metal cylinder is at an elevated temperature, seal the metal cylindrical casing while metal cylindrical casinger is at an elevated temperature, and allow the the metal cylinder to cool, such that when cooled, the cylindrical casing will compress the glass in all directions. | 03-05-2015 |
| 264349000 |
MISCELLANEOUS | 1 |
| 20090051081 | METHOD FOR PRODUCING MICROFINE FIBER AND FRIENDLY ARTIFICIAL LEATHER MADE THEREFROM - A method for producing microfine fibers having low resistance to deformation and high elasticity in accordance with the present invention comprises acts of: (a) providing polymer A and polymer B; (b) melting polymer A and polymer B to make a filament; (c) drawn the filament to make a staple fiber; (d) entangling the staple fiber to form a non-woven; (e) impregnating the non-woven with a impregnating agent; and may further comprise the acts of (f) using polyurethane impregnating the nonwoven with the impregnating agent or without the impregnating agent; (g) coagulating the non-woven with dimethylformamide (DMF); (h) washing the non-woven with hot water; (i) impregnating the non-woven with a treatment agent; (j) abrading the non-woven to attain a split type mirofine fiber substrate; and (k) bonding a coating to the microfine fiber substrate. Therefore, the method can attain an artificial leather product having low resistance to deformation and high elasticity. | 02-26-2009 |
| 264600000 |
HEAT POLISHING (E.G., GLAZING, ETC.) OF INORGANIC ARTICLE SURFACE OUTSIDE OF MOLD | 1 |
| 20130043623 | Plain Bearing Having a Hard/Soft Pairing - The invention relates to a plain bearing for an underwater power plant, comprising at least one plain bearing segment for forming a first plain bearing shell; at least one running element of a second plain bearing shell, the running element forming the counter bearing surface to the plain bearing segment, the sliding surface of the running element having a higher hardness than the sliding surface of the plain bearing segment; a carrying element for the running element; characterized in that an intermediate layer having an adjustable plastic deformability is arranged between the running element and a carrying element. | 02-21-2013 |
| 264068000 |
INCLUDING STEP OF GENERATING HEAT BY FRICTION | 1 |
| 20160059476 | METHOD FOR JOINING A PLASTIC WORKPIECE TO A FURTHER WORKPIECE - A method that includes: arranging plastic and further workpieces ( | 03-03-2016 |
