Entries |
Document | Title | Date |
20080260945 | Method and Device for Applying Fluids - This document describes a process and a device for applying fluids, specifically particle material, on an area to be coated, which is viewed in forward moving direction of the coater, that fluid is applied on the area to be coated and then a levelling element is run over the applied fluid, whereby the fluid is led from a metering system provided with an opening, which oscillates when applying the fluid. The opening shall be designed in such a way that when the metering system is at a standstill this is closed by forming an angle of repose of the fluid. | 10-23-2008 |
20090092752 | SPIRAL GAS-SOLIDS CONTACT APPARATUS AND METHOD - The invention is directed to apparatus and methods for contacting gas and solids in the manufacture of edibles, and particularly in connection with coating edible particulate solids. A drum is positioned around an inner tube so that an annular space is defined between the drum and the tube. A rotatable spiral element defines a gas pathway in the annular space, such that rotation of the spiral pushes particulate solids through the drum while the solids are contacted with gas in the annular space. | 04-09-2009 |
20090098288 | METHOD FOR MANUFACTURING POROUS PARTICLES WITH NON-POROUS SHELL - The present invention is core-shell polymer particles comprising a common binder polymer for the core and the shell wherein the core has a porosity and the shell is non-porous The particles have a porosity from 10 to 70 percent. | 04-16-2009 |
20090117269 | ELECTRICALLY CONDUCTIVE COMPOSITE MATERIAL - An electrically conductive composite material includes metallic nanostrands distributed throughout a matrix constructed of a polymer, ceramic, or elastomer. The nanostrands may have an average diameter under four microns and an average aspect ratio over ten-to-one. Larger fibers may also be included to enhance electrical conductivity or other properties. The nanostrands and/or fibers may be magnetically oriented to enhance electrical conductivity along one direction. A pressure sensor may be formed by utilizing an elastomer for the matrix. Electrical conductivity through the composite material varies in proportion to deflection of the elastomer. A composite material may be applied to a surface as an electrically conductive paint. Composite materials may be made by cutting a blank of the nanostrands to the desired shape, inserting the matrix, and curing the matrix. Alternatively, a suspension agent may first be used to dispose powdered nanostrands in the desired shape. | 05-07-2009 |
20090226608 | APPARATUS AND METHOD FOR COATING PARTICLES - An apparatus for coating particles with a polymer electrolyte, which includes at least one polymer membrane shell-coating part, the particles being coated with a membrane shell in the at least one polymer membrane shell-coating part by performing a step including contacting the particles having a predetermined charge with the polymer electrolyte having a charge opposite to that of the outer surface of the particles, thereby forming a membrane shell on the surface of the outermost layer of the particles. | 09-10-2009 |
20090246366 | APPARATUS AND METHOD FOR PREPARING PARTICULATES - Disclosed herein is an apparatus for preparing composite particulates, including a rotary body having a bottom surface and a side wall and operative to contain particulates to which an adhering material is to be made to adhere; a centrifugal machine for rotating the rotary body so as to apply centrifugal forces to the particulates in the rotary body; and an inclination varying device operative to vary the inclination of the rotary body to an arbitrary inclination angle in the range from an angle at which the bottom surface of the rotary body forms a horizontal surface perpendicular to the direction of gravity to an angle at which the bottom surface forms a vertical surface parallel to the direction of gravity, and operative to support the rotary body at the arbitrary inclination angle. | 10-01-2009 |
20090304919 | FORMALDEHYDE-FREE PHENOLIC RESIN BINDER - The present invention concerns a composition containing: an aqueous dispersion of at least one phenol-formaldehyde resin; at least one amine compound, wherein the molecular mass of the amine compound does not exceed approximately 20 000 g/mole, at least one activated silane, as well as at least one aromatic hydroxyl compound. The composition may be employed as a formaldehyde-free binder for the manufacture of mineral wool. | 12-10-2009 |
20090304920 | SPATIALLY CONTROLLED ATOMIC LAYER DEPOSITION IN POROUS MATERIALS - Methods for the selective deposition of materials within a porous substrate. The methods use the passivating effects of masking precursors applied to the porous substrate. A portion of a pore surface within the substrate is masked by exposing the substrate to one or more masking precursors. The depth of the pore surface that is masked is controllable by regulating the exposure of the substrate to the masking precursor. Application of the masking precursor prevents adsorption of one or more subsequently applied metal precursors about a portion of the pore surface coated by the masking precursor. Less than an entirety of the unmasked pore surface is coated by the metal precursor, forming a metal stripe on a portion of the pore surface. The depth of the metal stripe is controllable by regulating exposure of the porous substrate to the metal precursor. Subsequent exposure of the substrate to a saturating water application oxidizes the deposited precursors. | 12-10-2009 |
20100034968 | POLYMER COATING PROCESS USING DRY GLIDANT IN A ROTOR PROCESSOR - A method is provided for applying polymers to coat particulate cores in a rotor processor. The processor is actuated to create a circulating bed of cores in the rotor chamber. Dry powdered glidant is introduced into the rotating bed of cores, which are simultaneously sprayed with a polymer solution. The glidant enhances processability by eliminating or minimizing agglomeration of the cores. Air from above and below the rotating bed evaporates the solution to leave a polymer layer on the cores. Layers of polymer build up on the cores until a desired thickness is achieved. | 02-11-2010 |
20100047445 | Method for Coating Water-Absorbing Polymer Particles - A process for preparing water-absorbing polymer particles by spraying a liquid onto water-absorbing polymer particles by means of at least one thermally insulated and/or trace-heated spray nozzle in a mixer. | 02-25-2010 |
20100055306 | FLUIDICS COATING APPARATUS AND METHOD FOR SURFACE TREATING OF TONER AND DRY INKS - An apparatus ( | 03-04-2010 |
20100080897 | Continuous Coating of Pellets - A continuous dosage form coating apparatus uses vibrational impulses to maintain a dosage forms in a fluid state to expose them to a coating material atomized by spraying. | 04-01-2010 |
20100112203 | APPARATUS AND METHOD FOR PREPARING COMPOSITE PARTICULATES - A method of preparing composite materials by (a) containing particulates to which an adhering material is to be made to adhere, in a rotary body having a bottom surface and a side wall; (b) rotating the rotary body so as to apply centrifugal forces to the particulates in the rotary body; and (c) varying the inclination of the rotary body to an arbitrary inclination angle in the range from an angle at which the bottom surface of the rotary body forms a horizontal surface perpendicular to the direction of gravity to an angle at which the bottom surface forms a vertical surface parallel to the direction of gravity, and supporting the rotary body at the arbitrary inclination angle | 05-06-2010 |
20100119708 | Filling structures of high aspect ratio elements for growth amplification and device fabrication - The present invention includes compositions, devices and methods for filling structures of high aspect ratio elements for growth amplification and device fabrication. A method includes a method of filling a structure comprising the steps of providing one or more structures, each structure having a plurality of high aspect ratio elements, wherein the aspect ratio is at least 5; and coating the plurality of high aspect ratio elements with at least one solidifying material produced by a form of chemical vapor deposition thereby forming a structured-film. Compositions of the present invention are solid formed structures that are less fragile, do not require such delicate handling to avoid serious degradation, are more stable, last longer, do not deform, and exhibit little stress as well as improved properties that include mechanical, chemical, electrical, biologic, and optical. | 05-13-2010 |
20100215851 | METHOD OF PRODUCING CORE/SHELL COMPOSITE NANO-PARTICLES - A method of producing core/shell composite nano-particles exhibiting superior characteristics, by using as cores nano-particles heat treated in advance so as to give them a specific crystal structure in a state using a barrier layer to prevent sintering and forming shells on their surface, which eliminates hindrances to the shell forming reaction due to the phase transfer catalyst or other strongly sticky dispersant, is provided. A method of producing core/shell composite nano-particles comprising nano-sized core particles covered by shells, the method comprising dispersing core particles heat treated in advance to give them a crystal structure expressing the necessary characteristics in a first organic solvent by a first dispersant to prepare a first solution, adding a polar solvent to peel off the first dispersant from the core particles and making the nano-particles agglomerate to recover them, making the recovered core particles disperse in a second organic solvent by a second dispersant to form a second solution, and adding a precursor of the shells to the second solution and forming shells on the surfaces of the core particles. | 08-26-2010 |
20100266762 | PROCESSES AND AN APPARATUS FOR MANUFACTURING HIGH PURITY POLYSILICON - In one embodiment, a method includes feeding at least one silicon source gas and polysilicon silicon seeds into a reaction zone; maintaining the at least one silicon source gas at a sufficient temperature and residence time within the reaction zone so that a reaction equilibrium of a thermal decomposition of the at least one silicon source gas is substantially reached within the reaction zone to produce an elemental silicon; wherein the decomposition of the at least one silicon source gas proceeds by the following chemical reaction: 4HSiCl | 10-21-2010 |
20110020539 | PALLADIUM THIOLATE BONDING OF CARBON NANOTUBES - Carbon nanotube (CNT) arrays are attractive thermal interface materials with high compliance and conductance that can remain effective over a wide temperature range. Disclosed herein are CNT interface structures in which free CNT ends are bonded using palladium hexadecanethiolate Pd(SC | 01-27-2011 |
20110027479 | Seed Treatment Apparatus - A seed treatment apparatus provides for minimal waste of products for treating seeds, in that it is precisely controllable and automatically adjustable. A volume of seeds to be treated and a flow rate of treatment product for treating the seeds can both be sensed. At least one of the flow rate of the treatment product and the volume of seeds can automatically be adjusted if it is determined that a ratio of the flow rate of treatment product to the volume of seeds is not the same as a predetermined flow rate to volume ratio. | 02-03-2011 |
20110064875 | COMPOSITE PARTICULATE PREPARING APPARATUS AND METHOD - A composite particulate preparing apparatus is provided that includes a rotating body receiving particulates to which an adhering material is allowed to adhere and having a bottom surface, a side wall and a flange part; a centrifugal machine rotating the rotating machine to apply centrifugal force to the particulates in the rotating body; an inclination varying device shifting the rotating body at an arbitrary inclination angle so that the bottom surface of the rotating body forms a vertical plane parallel to a gravitational direction from a horizontal plane perpendicular to the gravitational direction; and a stirring device disposed closer to a horizontal line perpendicular to a vertical line drawn from a rotational center of the rotating body in a gravitational direction on a rotational side where the particulates drop from an uppermost point, than to the vertical line. | 03-17-2011 |
20110143029 | PREPARING METHOD FOR COATING PMMA PARTICLES WITH SILICON DIOXIDE - A preparing method for coating polymethylmethacrylate (PMMA) particles with silicon dioxide is disclosed and includes the following steps of: preparing a silicon dioxide solution by mixing a silicon dioxide powder and a solvent; adding a dispersant-and-interface-modifier agent into the silicon dioxide solution; performing a wet grinding to the silicon dioxide solution with the dispersant-and-interface-modifier agent so as to obtain a plurality of nano-sized silicon dioxide particles with negative charge; performing an interface modification to a plurality of PMMA particles to be charged with positive charge; adding the PMMA particles into the silicon dioxide solution; making the PMMA particles adsorb the nano-sized silicon dioxide particles; and performing a solid-liquid separation process to the silicon dioxide solution so as to obtain the chemical composite particles. | 06-16-2011 |
20110143030 | PROCESS FOR FORMING AND DEVOLATILIZING BROMINATED POLYBUTADIENE POLYMER PARTICLES - Brominated butadiene polymers are recovered from solution and formed into particles by spraying the solution onto a heated, mechanically agitated bed of seed particles. The droplets contact the seed particles in the bed and form a polymer layer on the outside of the seed particles, thereby enlarging them. The solvent is removed from the droplets after they make contact with seed particles in the bed. The process allows for the simultaneous removal of solvent and formation of somewhat large particles. The process forms at most small amounts of agglomerates and fines. | 06-16-2011 |
20110177243 | Multi component particle generating system - The invention relates to a method of generating a multicomponent particle comprising: and a multicomponent particle generating system comprising a movable support constructed to accelerate particles supplied on the movable support; a particle supply system for supplying the particles to the movable support; at least one nozzle arranged to generate a generally uninterrupted fluid jet along at least part of a circumference of the movable support without breaking up; to have said accelerated particles collide with the fluid jet so as to combine said particles with fluid of the fluid jet, for providing a multicomponent particle; and a collector arranged in the trajectory of said particles, by which said particles can be captured after collision with the fluid jet. | 07-21-2011 |
20110318484 | SILVER-COATED BALL AND METHOD FOR MANUFACTURING SAME - A silver-coated ball | 12-29-2011 |
20120015101 | CONTINUOUS FEED TABLET COATING SYSTEM - A system for coating tablets and other small articles is provided. The system is comprised of an elongate housing containing a drum journalled for rotation about a horizontal axis. The drum has two open ends that receive and discharge a supply of tablets respectively. The drum is rotated about the axis by a drive means to tumble the tablets and advance the tablets through the drum. The system also includes a system for delivering a selected amount of coating to the tablets while they are being tumbled and a feeder for continually feeding tablets at a first end of the housing. The system employs a weir plate for maintaining a depth of tablets within the drum and for controlling the time that the tablets remain in the drum. The system has a tablet discharge region for receiving tablets for discharge. | 01-19-2012 |
20120058265 | CASCADE-TYPE COATING DEVICE FOR POWDERY MATERIAL AND ASSOCIATED METHOD - A device for coating powdery material with at least one liquid additive. Said device includes an introduction device which includes a supply line and at least two nozzles which can introduce the liquid additive onto the conveyor line and to the powdery material. Said outlet openings of the at least two nozzles are housed at a distance of between 0.5-10 m on the supply line. Also disclosed are a method for coating powdery material with at least one liquid additive and the use of a device for coating powdery material with at least one liquid additive. | 03-08-2012 |
20120058266 | MANUFACTURE OF HIGH ACTIVE DETERGENT PARTICLES - A process for manufacturing detergent particles comprising the steps of: a) forming a liquid surfactant blend comprising a major amount of surfactant and a minor amount of water, the surfactant part consisting of at least 51 wt % linear alkylbenzene sulfonate and at least one co-surfactant, the surfactant blend consisting of at most 20 wt % nonionic surfactant; b) drying the liquid surfactant blend of step (a) in an evaporator or drier to a moisture content of at most 2 wt % and cooling the output from the evaporator or dryer; c) feeding the cooled material, which output comprises at least 93 wt % surfactant blend with a major part of LAS, to an extruder, optionally along with less than 10 wt % of other materials such as perfume, fluorescer, and extruding the surfactant blend to form an extrudate while periodically cutting the extrudate to form hard detergent particles with a diameter across the extruder of greater than 2 mm and a thickness along the axis of the extruder of greater than 0.2 mm, provided that the diameter is greater than the thickness; d) optionally, coating the extruded hard detergent particles with up to 30 wt % coating material selected from powdered inorganic material and mixtures of such material and nonionic material with a melting point in the range 40 to 90° C. | 03-08-2012 |
20120100290 | Novel bonding agents based on carbodiimides, aqueous resorcinol-formaldehyde-latex dispersions comprising bonding agent, adhesion-improved fibres, processes for production thereof and use thereof - The present invention relates to novel bonding agents based on carbodiimides, to aqueous resorcinol-formaldehyde-latex dispersion comprising bonding agent, to adhesion-improved fibres, to processes for production thereof, and to use thereof for improving adhesion in tyres. | 04-26-2012 |
20120100291 | SEMI-CONTINUITY FIBER PREPREG MATERIAL, MANUFACTURING METHOD THEREOF, AND COMPOSITE MATERIAL MADE OF SEMI-CONTINUITY FIBER PREPREG MATERIAL - The invention provides a semi-continuity fiber prepreg material, a manufacturing method thereof, and a composite material made of the semi-continuity fiber prepreg material. The semi-continuity fiber prepreg material includes a plurality of intermittency notches and/or continuity notches formed on a fiber prepreg material along at least one direction to make the fiber prepreg material soft and suitable for molding. | 04-26-2012 |
20120107498 | MULTI COMPONENT PARTICLE GENERATING SYSTEM - A multicomponent particle generating system may include a first nozzle constructed to generate at least one isolated particle, and a second nozzle arranged to generate a generally uninterrupted fluid jet without breaking up. The first and second nozzles are arranged to have the isolated particle traverse the fluid jet from one side to the other side so as to combine the particle with fluid of the second fluid jet, for providing a multicomponent particle. A collector is arranged on the other side of the fluid jet by which the isolated particles can be captured after collision with the fluid jet. The system includes a modulator, for modulating the second fluid jet so as to provide an undulated jet having thicker and thinner portions. | 05-03-2012 |
20120148739 | METHOD FOR MANUFACTURING METAL NANOSTRUCTURE AND METAL NANOSTRUCTURE MANUFACTURED BY THE METHOD - A method for manufacturing metal nanostructure which can manufacture a metal nanostructure which has the structure and properties different from the structure and properties of a conventional material and can be properly used in various applications is provided. The method for manufacturing metal nanostructure includes the steps of: preparing metal-coated organic nanofibers in which surfaces of the organic nanofibers are coated with metal; and preparing a metal nanostructure having the structure where the organic nanofibers are used as a template by removing organic components from the metal-coated organic nanofibers by heating the metal-coated organic nanofibers at a temperature ranging from 250° C. to 600° C. | 06-14-2012 |
20120189771 | On-the-Fly Coating of Acid-Releasing Degradable Material Onto a Particulate - Methods of creating particulates coated with acid-releasing degradable material comprising the steps of: combining an acid-releasing degradable material with a solvent or a plasticizer to create a coating solution; providing a first flowing stream comprising the coating solution; providing a second flowing stream comprising particulates; and, combining the first and second flowing streams to create a third flowing stream comprising particulates coated with the coating solution. Wherein the acid-releasing degradable material comprises at least one acid-releasing degradable material selected from the group consisting of: poly(orthoester); a lactide, a poly(lactide); a glycolide; a poly(glycolide); a poly(ε-caprolactone); a poly(hydroxybutyrate); a substantially water insoluble anhydride; a poly(anhydride); a poly(amino acid); a copolymer of two or more of the above-listed compounds; and any combination thereof. | 07-26-2012 |
20120276290 | SILICA NANOPARTICLES WITH ROUGH SURFACE - A method for preparing nanoparticles includes preparing a mixture containing an organic solvent, surfactant and water; adding a first quantity of a first silica precursor and ammonia to the mixture; adding a second quantity of the first silica precursor and a second silica precursor to the mixture; adding acetone to the mixture; removing silica nanoparticles from the mixture; and drying the silica nanoparticles. | 11-01-2012 |
20120328777 | METHOD FOR PREPARING COATED BINDER UNITS AND A SYSTEM FOR USE THEREIN - A method for preparing a plurality of coated binder units wherein each of the coated binder units comprises a core of a binder coated with a layer of coating material, which method comprises the steps of: (a) providing a coated binder which comprises a core of a binder coated with a layer of coating material; and (b) dividing the coated binder into the plurality of the coated binder units by means of a system which comprises a first and a second loop that engage over part of their lengths and rotate in opposite directions, the first loop comprising a first repeating sequence of interlinked molds and the second loop comprising a second repeating sequence of interlinked molds, whereby the coated binder units are formed by welding edges of the coating and cutting the extrudate into pieces in a region where the first and the second loops engage. The invention further relates to said system. | 12-27-2012 |
20130022742 | Method for Producing Polymer-Encapsulated Nanoparticles - The present invention relates to a method for producing polymer-encapsulated nanoparticles comprising the steps of: pumping supercritical fluid into a pressurised vessel, at a predetermined pressure; spraying a solution comprising a compound to be encapsulated, a polymer and an organic solvent into the vessel; collecting precipitated particles on a filter; and washing the particles with the supercritical fluid to remove residual solvent; characterised in that: the difference between the melting point of the polymer and the melting point of the compound to be encapsulated is not more than 10° C. | 01-24-2013 |
20130029040 | WATER ABSORBING MATERIAL AND MANUFACTURING METHOD THEREFOR - Provided is a water absorbing material having a granular core portion and a coating layer portion coating the granular core portion, which does not produce color before use and with which a test result can be determined only after use. In the water absorbing material, the coating layer portion is composed of 90 wt % to 96 wt % of a substrate and 10 wt % to 4 wt % of an excretion test material, the excretion test material contains a porous adsorbent having an adsorbance of 25 wt % or greater and including micropores, and an excretion test indicator adsorbed on the micropores of the porous adsorbent, and the excretion test indicator is added in an amount in the range of 0.015 wt % to 0.10 wt % relative to the total amount of the coating layer portion. | 01-31-2013 |
20130052343 | METHOD FOR MANUFACTURING PARTICLES SUCH AS MAGNETIC MICRO- OR NANOPARTICLES - A method for manufacturing particles includes depositing on a substrate a layer of a first sacrificial material; depositing on the layer of the first sacrificial material a layer of a second sacrificial material that is different from the first sacrificial material; forming cavities in the layer of the second sacrificial material, the forming including pressing a structured mold against the layer of second sacrificial material; depositing a material for manufacturing the particles, the material covering the layer of the second material and at least partially filling the cavities; selectively removing the second sacrificial material from the first sacrificial material so as to obtain the particles formed by the material and arranged on the layer of the first sacrificial material; and eliminating the first sacrificial material to release the particles. | 02-28-2013 |
20130059073 | Apparatus and Method for making atomic layer deposition on fine powders - Method and apparatus for making atomic layer deposition on powdered materials are provided. A rotary vessel with tilted rotation axis can be used as the deposition chamber. The rotary vessel can be directly used as the deposition chamber, or the rotary vessel is positioned inside a vacuum chamber that serves as the deposition chamber. A hallow shaft can be used to deliver rotary motion and facilitate pumping. A tube can be inserted into the hollow shaft or the rotary vessel to introduce precursors. Gas diffuser and slowly increased pumping speed can be used to reduce the agitation caused by gas flow. Intermittent rotation, variable rotary speed, extruding structures on inner surface of the rotary vessel, and the addition of easy-to-agitate powder or beads of other materials can be used to enhance the powder agitation caused by rotation. | 03-07-2013 |
20130078373 | Recycling Cotton Fiber From Old Mattresses - Cotton fibers are reclaimed from old mattresses, particularly from areas of the mattresses which have large amounts of cotton fibers and low amounts of other fibers or binders, and the reclaimed fibers are cleaned and treated with flame retardant chemicals. The reclaimed, flame retardant treated fibers may then be used in new mattresses, furniture and other applications. The reclaimed fibers may be formed into a nonwoven prior to treatment of fire retardant chemicals, and, after the treatment, the nonwoven can function as a fire barrier in mattresses, furniture and in other applications. | 03-28-2013 |
20130196064 | PROCESS FOR PRODUCING BLOCK POLYMER, COATED PIGMENT AND AQUEOUS PIGMENT DISPERSION - Disclosed are an aqueous pigment dispersion containing at least a pigment, water, a high-molecular dispersant, and an alkali. The high-molecular dispersant is a diblock polymer having a formula (1) of A-B or a triblock polymer having a formula (2) of A-B-C. The diblock or triblock polymer is a diblock or triblock polymer obtained by polymerizing addition-polymerizable monomers with a radical generator while using an organic iodide as a polymerization initiating compound and an organic phosphorus compound, organic nitrogen compound or organic oxygen compound as a catalyst. Also disclosed are a production method and use of the aqueous pigment dispersion. With the high-molecular dispersant obtained by a simple living radical polymerization process free of the problems of conventional living radical polymerization and having a precisely-controlled molecular structure, the aqueous pigment dispersion can be obtained with the pigment dispersed in it. | 08-01-2013 |
20130202788 | NON-AQUEOUS THIXOTROPIC FRAGRANCE GEL - The present invention is a non-aqueous self-standing rigid fragrance gel comprising fragrance oil and a hydroxylalkyl cellulose derivative. In the preferred embodiment of the present invention, about 4.0 weight percent or more of hydroxylpropyl cellulose converts fragrance oil into a rigid gel with pseudoplastic rheology. The pseudoplastic gel shears to allow coating of crystals and objects, with subsequent rigidity restored to at least 80%. | 08-08-2013 |
20130202789 | METHODS OF ACETYLATION OF WOOD INVOLVING MULTIPLE ACETYLATION CYCLES - This invention relates to acetylation of wood. In particular, the invention provides methods of acetylation of solid wood in which at least some of the solid wood is processed in multiple acetylation cycles. The invention further provides wood acetylation methods that include sorting solid wood pieces based on density-indicating parameters. | 08-08-2013 |
20130273246 | EFFICIENT AND SIMPLE METHOD FOR METALORGANIC CHEMICAL VAPOR DEPOSITION - The present invention provides a method of preparing metal or metal oxide particles on a substrate by forming a reaction mixture of a metal or metal oxide precursor and a substrate, and heating the reaction mixture at reduced pressure, such that metal or metal oxide particles are formed on the substrate. | 10-17-2013 |
20140057047 | DEVICE AND A METHOD FOR INJECTING A FLUID INTERNALLY OF A FLOW OF LOOSE MATERIAL - A device for injecting a fluid internally of a flow of loose material, comprising: a feeder ( | 02-27-2014 |
20140141162 | Dust Suppression Formulas Using Plasticized Cellulose Ethers - A method of treating a plurality of fines of a dusting material to prevent emanation of dust from the dusting material is described. An aqueous solution comprising a mixture of soluble non-ionic cellulose ether, a plasticizer, and a surfactant is provided. The aqueous solution is applied to a dusting material comprising a plurality of fines. The dusting material is transferred during the applying step from a first location to a second location as the aqueous solution is applied to the plurality of fines. The dusting material is mixed with the aqueous solution to coat the plurality of fines with the aqueous solution. The treated dusting material is accumulated into a mass of the material subsequent to the applying step wherein the aqueous solution is substantially evenly distributed throughout an interior portion of the mass of the treated dusting material. | 05-22-2014 |
20140178580 | Capsule Formation - A capsule forming apparatus comprising a plurality of outputs configured to output capsule materials, a tank for housing a first capsule material and being configured to supply the first capsule material to the outputs and at least one conduit being configured to convey a second capsule material to the outputs. A method for forming capsules is also described. | 06-26-2014 |
20140212582 | CURABLE RESIN COMPOSITIONS - A solvent-free curable epoxy resin composition including (a) at least one divinylarene dioxide; and (b) at least one hardener; wherein the solvent-free curable epoxy resin composition is substantially free of solvent and has at least two exotherm peaks and wherein the exothermic peak difference of the two exotherm peaks is sufficient to allow the curable solvent-free epoxy resin composition of being B-staged. | 07-31-2014 |
20140287139 | EXTRUSION-BASED ADDITIVE MANUFACTURING - A method of manufacturing an object. A thermoplastic matrix material is melted to transform it into liquid matrix material. The liquid matrix material is fed into a chamber via one or more matrix inlets. A fibre is also fed into the chamber via a fibre inlet. The fibre in the chamber is contacted by the liquid matrix material. A coated fibre is extruded from an extrusion outlet of the chamber onto a substrate, the coated fibre comprising the fibre with a coating of the liquid matrix material, the substrate comprising a previously extruded coated fibre. The fibre moves in and out of the chamber at the same velocity relative to the chamber. The coating fuses with the previously extruded coated fibre and solidifies after it has fused with the previously extruded coated fibre. Relative movement is generated between the extrusion outlet and the substrate as the coated fibre is extruded from the extrusion outlet. | 09-25-2014 |
20140308442 | DEVICE FOR DOSING AN ADDITIVE SOLUTION | 10-16-2014 |
20140314951 | MULTILAYER ORGANIC-TEMPLATED-BOEHMITE-NANOARCHITECTURE FOR WATER PURIFICATION - An adsorbent composition comprising a nanoscale shell of metal oxide or hydroxide on an organic-templated-boehmite-nanoarchitecture (OTBN) is provided. The nanoscale shell is prepared by impregnating OTBN with a metal or a non-metal ion, followed by in-situ hydrolysis of the deposited ion on the OTBN surface. The thickness of the shell is less than about 3 nm, which is less than the size of OTBN core. The number of layers of the shell is flexible, thereby leading to a multi-layer nanoscale hybrid composition. The adsorbent composition is capable of removing inorganic anions such as fluoride from water, with an increased adsorption capacity. | 10-23-2014 |
20140349009 | PHOTOLUMINESCENT PIGMENT; COSMETIC, PAINT COMPOSITION, AND RESIN COMPOSITION CONTAINING SAME; AND BRIGHT PIGMENT PRODUCTION METHOD - A bright pigment of the present invention is a bright pigment including flaky particles and a metal oxide layer covering each surface of the flaky particles. The metal oxide layer has a thickness variation coefficient (standard deviation of thickness of the metal oxide layer/average thickness of the metal oxide layer) of 20% or less. The bright pigment preferably contains a sodium component, and the sodium component is Na | 11-27-2014 |
20150030767 | DEVICE AND METHOD FOR PRODUCING COATED PRODUCTS, FOR EXAMPLE BITUMINOUS COATED PRODUCTS, WITH PROTECTION PLATES - The invention relates to a device for manufacturing coated materials, the device comprising:
| 01-29-2015 |
20150064350 | DEVICE FOR PRODUCING HOT COATED PRODUCTS HAVING A BRANCHED OUTLET AND EXTERNAL MIXER AND METHOD FOR PRODUCING CORRESPONDING HOT COATED PRODUCTS - The invention relates to a device for manufacturing hot-mix coated materials, e.g. materials coated with bitumen, the device comprising:
| 03-05-2015 |
20150132484 | SYSTEM FOR COATING GRANULAR MATERIALS - A system for heating, coating, cooling and screening a granular substrate is provided. The system, such as an apparatus for continuous coating granular particles, includes a preheater apparatus for heating granular particles, a rotary drum having an inlet horizontally coupled to the preheater for receiving heated granular particles directly from the fluidized bed preheater, a coating apparatus positioned within the drum for applying a coating to the heated granular particles, and a cooling apparatus positioned horizontally in association with the drum for cooling the granular particles subsequent to coating. | 05-14-2015 |
20150335065 | SURFACE ATTACHMENT OF PARTICLES TO CELLULOSE ESTER FIBERS - This invention pertains to the surface attachment of particles, such as metal oxides, to cellulose ester fibers. The particles are applied to the surface of the cellulose ester fibers using a protic liquid that is substantially free of plasticizer. | 11-26-2015 |
20160001315 | System and Method for Conveying Low-Shear Tolerant Matrixes - A system and method for conveying and dispersing a fluid, particularly a low-shear tolerant fluid, onto a granulated material using at least two spray nozzles. Using at least two spray nozzles achieves the same total flow rate as a single nozzle, but reduces the pressure and shear forces on the fluid, allowing fluids containing biological components to be sprayed at the same total flow rate without damaging the biological components. A conveyor or chute transports the granulated material in a wide, thinner laminar plane under the spray nozzles. The spray nozzles are supported above the conveyor or chute and are adjustable as to height and angle. An optional blow-off nozzle directs compressed gas to clean the spray nozzles when fluid spraying has stopped. | 01-07-2016 |
20160074902 | Device and Method for Applying Nanoparticle Surface Treatments - An apparatus for applying a surface coating to a substrate comprised of a housing, a means for delivering a surface coating to the substrate and a means for providing an external stimulation to catalyze the bonding of the surface coating to the substrate. Additionally, disclosed is a method of applying a surface coating to a substrate by concurrently providing a surface coating and a source of stimulation that is suitable for bonding the surface coating to the substrate. | 03-17-2016 |
20160082458 | Apparatus And Method For Coating Particulate Material - A method and apparatus are defined for coating a particulate material. The apparatus includes a mixer having a mixing chamber. A quantity of particulate material is fed into an inlet of the mixing chamber. An agitator is provided for mixing and conveying the particulate material. A feed system is also provided for delivery of a coating into the mixing chamber. The coating is delivered as an atomized spray directed at the mixing particulate material within the mixing chamber. A controller is provided for adjusting the flow of the coating into the mixing chamber based on the volumetric feed rate of the particulate material. | 03-24-2016 |
20160083651 | Apparatus And Method For Coating Particulate Material - In a method of treating a particulate landscaping material, the material is fed into a mixing chamber and an additive mixture including a functional additive and a carrier is delivered to spray nozzles within the mixing chamber. At least one of the spray nozzles is operated to direct an atomized spray into the mixing chamber. The material is agitated within the mixing chamber during and/or after directing the atomized spray into the mixing chamber. The material is then conveyed with the additive mixture applied thereto to a mixing chamber outlet. During these steps, a volumetric flow rate of the particulate landscape material through the mixing chamber is intermittently determined. The determined volumetric flow rate is intermittently compared to a predetermined target flow rate of the particulate landscape material. Based on this comparison, the volumetric flow rate of the particulate landscape material through the mixing chamber is adjusted. | 03-24-2016 |
20160106069 | PRODUCTION METHOD FOR ANIMAL EXCREMENT TREATMENT MATERIAL AND PRODUCTION DEVICE THEREFORE - A production method for animal excrement treatment material and a production device therefor, having: a step in which a raw material is granulized and a granular material is obtained; and a step in which a coating material is coated on the granular material. The step in which the coating material is coated on the granular material has: a step in which the coating material is arranged on the granular material; and a step in which a vibration is applied to the granular material having the coating material arranged thereupon. | 04-21-2016 |
20160107137 | SUSTAINED SUPER-SATURATIONS FOR CONDENSATIONAL GROWTH OF PARTICLES - An apparatus and method for creating enlarged particles in a flow. The apparatus includes a coiled tube having a tube diameter and a coil diameter, the tube having an input receiving the flow and an output, the tube having a length between the input and the output. A heater heats a first portion of the tube along a first, longitudinal portion of the tube, and a cooler cools a second, longitudinal portion of the tube along at least a second portion of the tube. The method includes heating a first portion of the tube along a first longitudinal portion of the tube, and simultaneously cooling a second portion of the tube along at least a second longitudinal portion of the tube. While heating and cooling, the method includes introducing a flow into an interior of the tube at an input, the flow moving the output. | 04-21-2016 |
20160167067 | METHOD AND APPARATUS FOR COATING PARTICLES | 06-16-2016 |
20160167087 | DUST SUPPRESSION FORMULAS USING PLASTICIZED CELLULOSE ETHERS | 06-16-2016 |
20160168385 | Coated Particles and Method of Coating Particles | 06-16-2016 |
20160374931 | Method For Forming Particles With Cross-Linked Coatings For Cosmetic Applications - The present invention relates to a method for forming coated particles, comprising the steps of: agitating a volume of core particles while heating to a constant average temperature of about 40° C. Once particles are generally evenly mixed, with no apparent agglomeration, the vinyl-functional silicone polymer, hydride-functional crosslinker, and metal catalyst are combined in a premix under continuous propeller-mixing. The vinyl-functional silicone polymer, hydride-functional crosslinker, and metal catalyst premix is then siphoned into the main vessel, containing the heated core particles, at rate that ensures no clumping or agglomeration of the particulates. Once even coating has been achieved, the main vessel is heated to an average temperature of about 80° C., then cooled back down to room temperature (about 20° C.-28° C.). The coated material is then passed through a 45 μm sieve to remove any large particulates that may be present. | 12-29-2016 |
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