Class / Patent application number | Description | Number of patent applications / Date published |
264013000 | By extrusion spraying or gravity fall through orifice | 49 |
20090039537 | Method for the Production of Expandable Styrol Polymers Having Improved Expandability - A process for producing expandable styrene polymers (EPS) having improved expandability, wherein from 0.1 to 1% by weight, based on the styrene polymer, of a free-radical former is metered into a styrene polymer melt containing blowing agent at a melt temperature in the range from 150 to 220° C. and the melt is extruded through a die plate with subsequent underwater pelletization. | 02-12-2009 |
20090108481 | Method and system for pelletizing sulfur - Relatively uniform spherical shaped solid pellets (prills) may be created by passing molten sulfur through a nested strainer to remove particles that would otherwise become trapped in the system, a drip tray with a heating channel attached on its underside, an injection conduit for delivery of a cooled zone of water to create solid prills, and thereafter moving the prills through a stationary curved screen to remove most of the excess water and a vibrating screen. | 04-30-2009 |
20090134536 | Granulator and method of granulation using the same - A granulator, having: a granulation unit having a bottom floor with a perforated plate as its bottom part; an upper air-supplying pipe for supplying a fluidizing air to the bottom floor of the granulation unit; a lower air-supplying pipe; air-spouting pipes, each of which is branched from the lower air-supplying pipe, and has an opening in the bottom floor of the perforated plate, for jetting the air into the granulation unit; and spray nozzles for spraying a granulation raw material liquid, which each are provided in the center of an air outlet of the air-spouting pipe, or a granulator, having: the bottom floor; the air-supplying pipe; and spray nozzles for spraying a granulation raw material liquid, which each are provided in an opening in the bottom floor of the perforated plate, and use a high-pressure atomizing air as an auxiliary gas, wherein, in each granulator, the spray nozzles are formed in triangular arrangement. | 05-28-2009 |
20090315204 | Method for Producing Polymer Particles by the Polymerization of Fluid Drops in a Gas Phase - A process for producing polymer particles by polymerizing liquid droplets in a gas phase by metering a liquid comprising at least one monomer from at least one feed by means of a multitude of bores into a reaction chamber comprising the gas phase, wherein ratio of length of the feed to greatest diameter of the feed in the region of the multitude of bores is at least 10. | 12-24-2009 |
20100219544 | PROCESS FOR PRODUCING CERAMIC FINE PARTICLES, AND CERAMIC FINE PARTICLE PRODUCING APPARATUS USED THEREIN - Provided are a ceramic-fine-particle producing process making it possible to produce, with ease, ceramic fine particles which have a spherical shape close to a complete round and an excellent mono-dispersibility, and are made only of a solid component of a simple ceramic material without making a fine channel structure complicated, and an apparatus used therein for producing ceramic fine particles. | 09-02-2010 |
20100219545 | APPARATUS AND METHOD OF MANUFACTURING ASEPTIC CAPSULES - Provided are an apparatus and a method of aseptically manufacturing cell-immobilizing capsules, the apparatus comprising a multi-nozzle assembly and a double mesh system for the washing and size-selection of the capsules, and thus, the production, washing, selection and recovery of the capsules can be easily conducted under an aseptic condition in an integrated fashion. | 09-02-2010 |
20100237523 | METHODS FOR PREPARING POLYMER MICROPARTICLES - The present invention describes methods and tools for preparing a population of monodisperse polymer microparticles, which are of particular interest in the field of drug delivery. | 09-23-2010 |
20100314789 | GLOBULAR RUBBER ADJUVANTS AND THE METHOD OF PREPARATING THE SAME - The present invention provides spherical rubber chemicals and the method for preparing the same. The spherical rubber chemicals of the present invention include spherical antioxidants, spherical vulcanization agents, spherical processing aids, spherical reinforcing agents, or spherical adhesive agents. With the spherical rubber chemicals of the present invention, the shortcomings of powdery or semi-spherical rubber chemicals are overcome, including eliminating the dust pollution during granulation procedure and avoiding the raw material loss and the environmental pollution, while solving the quality problem of lower melting point of product caused by the presence of fine powder crystal. Furthermore, the resultant rubber chemicals has an improved smoothness of surface, which is helpful to improve the flowing and mixing behaviors of the rubber chemicals in mixing or open milling process with rubbers. | 12-16-2010 |
20110018155 | PROCESS FOR PRODUCING THERMOELECTRIC SEMICONDUCTOR MATERIALS AND LEGS - The use of induction furnaces for producing thermoelectric legs and components for thermoelectric modules is described, as is a process for producing thermoelectric semiconductor materials by co-melting mixtures of the particular element constituents of the thermoelectric semiconductor materials or alloys thereof in an induction furnace and pouring the melt thus obtained into the mold of a thermoelectric leg, or spraying the melt thus obtained to produce a pulverulent thermoelectric semiconductor material. | 01-27-2011 |
20110042841 | PROCESS FOR PRODUCING BIOPOLYMER NANOPARTICLES - A process for producing a biopolymer nanoparticles product is disclosed. In this process, biopolymer feedstock and a plasticizer are fed to a feed zone of an extruder having a screw configuration in which the feedstock is process using shear forces in the extruder, and a crosslinking agent is added to the extruder downstream of the feed zone. The biopolymer feedstock and plasticizer are preferably added separately to the feed zone. The screw configuration may include two or more steam seal sections. Shear forces in a first section of the extruder may be greater than shear forces in an adjacent second section of the extruder downstream of the first section. In a post reaction section located after a point in which the crosslinking reaction has been completed, water may be added to improve die performance. | 02-24-2011 |
20110210460 | PROCESS FOR PRODUCING PELLETS FOR PHARMACEUTICAL COMPOSITIONS - Water is used to control particle size in a process comprising mixing water with a composition comprising a rheology modifying agent and possibly sugar and cellulose to produce a paste. The paste is extruded to form particles which are then spheronised and dried. One advantage of using water to control particle size is that the number of particles having a diameter within a required range, e.g. between from about 800 to about 1500 μm, may be increased. | 09-01-2011 |
20110215494 | DEVICE AND METHOD FOR CONTINUOUS CASTING AND GRANULATION OF STRANDS FROM THERMOPLASTIC - The invention relates to an apparatus for continuous casting and granulating strands of a thermoplastic material which uses a nozzle head having a plurality of nozzle apertures of a maximum diameter of 4 mm each, and water-moistened guide means for cooling and guiding the plastic strands exiting the nozzle aperture via inlet rollers to the inlet of the cutting unit for chopping up the plastic strands into granules approx. 2-3 mm in length. The flow rate of the melt, with the strands being cooled down on their way from the nozzles via the guide means to the feed rollers of the cutting unit, of at least 100 nm/min in the central spatial region of the nozzle apertures will be increased to such an extent that the cutting unit will chop up the strands at a cutting rate of >2,000 cuts/s. | 09-08-2011 |
20110316177 | POLYIMIDE PARTICLES DERIVED FROM SCRAP POLYIMIDE FILM AND METHODS RELATING THERETO - A method is disclosed for making polyimide powder. The method includes feeding polyimide film material into an extruder, where the extruder has at least one heating zone. The feed rate into the extruder is less than the maximum feed rate of the extruder. The material is then extruded for at least 0.5 seconds at a temperature greater than 300° C. to provide a powdered extrudate. | 12-29-2011 |
20120007263 | MONOMER BEADS FOR PRODUCING A PROTON-CONDUCTING MEMBRANE - Monomer beads which can be obtained according to a process in which
| 01-12-2012 |
20120061867 | POLYMER PELLETS CONTAINING SUPERCRITICAL FLUID AND METHODS OF MAKING AND USING - A process for the manufacture of a plastic part, the process comprising providing a polymer, heating the polymer, introducing a gas or supercritical fluid into the polymer, mixing the polymer and the gas to produce a first melt, extruding the first melt, pelletizing the extruded first melt to form pellets, transforming the pellets into a second melt, and molding the second melt to form the plastic part. In pelletizing the first melt, individual cells of gas are included in the resulting pellets. Before the cells can nucleate, the polymer is solidified to keep the gas contained therein. After the polymer is pelletized, the pellets are considered to be unfoamed. In molding the second melt to form the plastic part, nucleation of the cells is initiated through favorable process conditions and/or additional cell nucleating agents, thereby resulting in the second melt being foamed. | 03-15-2012 |
20120139140 | Spherical Rubber Chemicals and the Method for Preparing the Same - The present invention provides spherical rubber chemicals and the method for preparing the same. The spherical rubber chemicals of the present invention include spherical antioxidants, spherical vulcanization agents, spherical processing aids, spherical reinforcing agents, or spherical adhesive agents. With the spherical rubber chemicals of the present invention, the shortcomings of powdery or semi-spherical rubber chemicals are overcome, including eliminating the dust pollution during granulation procedure and avoiding the raw material loss and the environmental pollution, while solving the quality problem of lower melting point of product caused by the presence of fine powder crystal. Furthermore, the resultant rubber chemicals has an improved smoothness of surface, which is helpful to improve the flowing and mixing behaviors of the rubber chemicals in mixing or open milling process with rubbers. | 06-07-2012 |
20120248641 | ACRYLONITRILE-SILAZANE COPOLYMERS, ESPECIALLY IN FIBER FORM, PROCESS FOR PREPARATION THEREOF AND USE THEREOF - The present invention pertains to a copolymer obtained by reacting a mixture of acrylonitrile or of a mixture of acrylonitrile and an organic molecule that can be copolymerized with acrylonitrile, with which a monomeric, oligomeric and/or polymeric silazane can be obtained, said silazane containing at least one vinylic double bond. The copolymer can be brought into fiber form and/or made infusible. The production of ceramic fibers by pyrolysis is possible with fiber-like copolymers. | 10-04-2012 |
20120319315 | POLYACRYLONITRILE-BASED POLYMER SOLUTION, PREPARING METHOD OF THE SAME, CARBON FIBER PRECURSOR, MANUFACTURING METHOD OF THE SAME AND MANUFACTURING METHOD OF CARBON FIBER USING THE SAME - Disclosed is a method for manufacturing carbon fiber which comprises the use of un-reacted raw material monomers in solution to prepare the precursor fiber for making the carbon fiber, and a relatively short passage period through hydrogen, which reduce production costs and increase returns. The present invention further comprises the carbon fiber precursors made thereby. | 12-20-2012 |
20120326342 | CARBON-FIBER CHOPPED STRAND AND MANUFACTURING METHOD OF THE SAME - Disclosed is a carbon-fiber chopped strand, and a manufacturing method of the same. The carbon-fiber chopped strand is composed of single filaments composed of 30,000-120,000 carbon fibers, and a sizing agent content 1-10% by weight that bundles the single filaments; the ratio of maximum diameter (Dmax) in the cross section and minimum diameter (Dmin) is 1.0-1.8, a length along a fiber direction is 3-10 mm, and a repose angle of 10-30°. | 12-27-2012 |
20130140725 | NOZZLE PLATE - The present invention provides a nozzle plate and the use of the nozzle plate for producing filaments, preferably silica gel fibers. | 06-06-2013 |
20130147074 | METHOD AND APPARATUS FOR GENERATING PARTICLES - A method and an apparatus for generating particles are provided. The method may be a method for generating particles from a flowable medium, the method involving forming drops from the flowable medium, arranging the drops on a particle forming surface and solidifying the drops, thereby forming the particles. The apparatus may be an apparatus for generating particles from a flowable medium with a drop generator and a particle forming surface, the drop generator being formed to arrange drops on the particle forming surface and the particle forming surface may be adapted to contact the drops when the particles are being formed. | 06-13-2013 |
20130193598 | HIGH-TEMPERATURE SPRAY DRYING PROCESS AND APPARATUS - The process comprises delivering a spray solution comprising at least one solute in a solvent to a spray-drying apparatus, using a flash nozzle to atomize the spray solution into droplets within the spray-drying apparatus to remove at least a portion of the solvent from the droplets to form a plurality of particles, and collecting the particles. The spray solution is directed to a heat exchanger, thereby increasing the temperature of the spray solution to a temperature T | 08-01-2013 |
20130241093 | METHOD AND APPARATUS FOR PRILLING WITH PRESSURE CONTROL - Methods and apparatus for prilling are provided which include dynamically controlling the pressure at the prill head for increased control over prill quality and size distribution. In one embodiment, the pressure of a headspace above a volume of liquid or slurry is regulated to maintain a more precise control of the pressure of the liquid or slurry at the prill head. In another embodiment, an axial upflow device is used to maintain a more precise control of the pressure of the liquid or slurry at the prill head. | 09-19-2013 |
20130249131 | PROCESS FOR PRODUCING PELLETS FOR PHARMACEUTICAL COMPOSITIONS - Water is used to control particle size in a process comprising mixing water with a composition comprising a rheology modifying agent and possibly sugar and cellulose to produce a paste. The paste is extruded to form particles which are then spheronised and dried. One advantage of using water to control particle size is that the number of particles having a diameter within a required range, e.g. between from about 800 to about 1500 μm, may be increased. | 09-26-2013 |
20130256932 | METHOD FOR PREPARING A HEMISPHERE-SHAPED DOSAGE FORM CONTAINING DRUG AND APPLICATIONS THEREOF - A method for preparing a hemisphere-shaped dosage form containing drug. A high molecular weight solution containing the drug is prepared, and the solution is then dropped onto a base material. The interface phenomenon between the solution and different base materials causes the solution to form a hemisphere-shaped liquid drop dosage. After solidifying by cross-link or evaporation, a hemisphere-shaped dosage form containing drug is obtained. The advantages of the preparation method are a simple and fast process, and simple operation. Applications of the preparation method to prepare a hemisphere-shaped dosage form containing drug are also provide. | 10-03-2013 |
20130277872 | PROCESS FOR THE PRODUCTION OF ACTIVE SUBSTANCE BEADS - The present invention relates to a process for the automated production of active substance beads having a gel-like carrier material, preferably a biopolymer, such as agarose, and having embedded in the carrier material a biologically active material, such as an active substance and/or a material which generates an active substance, comprising the following steps: | 10-24-2013 |
20130292860 | HOLLOW FIBER MEMBRANE SPINNING NOZZLE, AND METHOD FOR MANUFACTURING HOLLOW FIBER MEMBRANE - A hollow fiber membrane-spinning nozzle that spins a hollow fiber membrane having a porous membrane layer and a support is provided in which the nozzle includes a resin flow channel through which a membrane-forming resin solution forming the porous membrane layer flows, the resin flow channel includes a liquid storage section that stores the membrane-forming resin solution and a shaping section that shapes the membrane-forming resin solution in a cylindrical shape and satisfies at least one of conditions (a) to (c): (a) the resin flow channel is disposed to cause the membrane-forming resin solution to branch and merge; (b) a delay means for delaying the flow of the membrane-forming resin solution is disposed in the resin flow channel; and (c) the liquid storage section or the shaping section includes branching and merging means for the membrane-forming resin solution therein. | 11-07-2013 |
20130313737 | NOVEL COMPOSITION FOR PREPARING POLYSACCHARIDE FIBERS - Solutions formed by combining poly(α(1→3) glucan) with CS | 11-28-2013 |
20140042653 | CONTROL METHOD FOR TARGET SUPPLY DEVICE, AND TARGET SUPPLY DEVICE - A control method for a target supply device includes melting a target material by heating the target material within a target generator using a heating unit, pushing out the target material from a nozzle hole in a nozzle by pressurizing the interior of the target generator using a pressure control unit, determining whether or not the size of an adhering area of the target material that forms when the target material is pushed out from the nozzle hole and adheres to a leading end of the nozzle has reached a set size that covers the entire nozzle hole, stopping the pressurization of the interior of the target generator by the pressure control unit when the size of the adhering area has reached the set size, and hardening the target material in the target generator and the adhering area by stopping the heating of the target material by the heating unit. | 02-13-2014 |
20140103555 | POLYOLEFIN ELASTIC FIBER - An article comprising a yarn comprising an elastomeric propylene-based polymer composition; said polymer composition comprising at least one elastomeric propylene-based polymer, wherein said yarn has break elongation of greater than 200%. | 04-17-2014 |
20140167299 | Process for Producing Dispersible Powders - A process for producing dispersible powders by spray-drying aqueous polymer dispersions and adding antiblocking agent, wherein antiblocking agents present in agglomerated form and having a particle size from 10 μm to 250 μm, or having a particle size from 5 mm to 5 cm in the case of agglomerates in the form of extrudates, are fed in whole or in part by a transport gas into the spray-drying device and are comminuted to a particle size from 0.01 μm to 5 μm, or, in the case of extrudates, to a particle size from 2 μm to 60 μm. | 06-19-2014 |
20140175687 | CARBON-COATED LITHIUM TITANIUM SPINEL - A carbon-containing lithium titanium oxide containing spherical particle aggregate with a diameter of 1-80 μm, consisting of lithium titanium oxide primary particles coated with carbon. Also, a method for the production of such a carbon-containing lithium titanium oxide as well as an electrode containing such a carbon-containing lithium titanium oxide as active material as well as a lithium-ion secondary battery containing an above-described electrode. | 06-26-2014 |
20140217631 | SULFUR GRANULATOR SYSTEM AND METHOD - Sulfur (or sulphur) spray nozzles disposed with a tank spray liquid molten sulfur into the cooling liquid in the tank. Solid sulfur seeds are formed in the cooling liquid and settle in the tank. The tank may be a spiral dewaterer tank that has a screw conveyor at the bottom of the tank that moves the seeds to a granulating drum for enlargement into sulfur granules. The tank may also he used to capture and remove sulfur dust from a slurry of sulfur dust and water recycled from the granulating drum. The sulfur dust in the cooling tank may be captured by contact with molten sulfur droplets streaming down the cooling liquid column such that the dust particles become incorporated into the droplet, thereby being converted to seed. The granulating drum may be equipped with two or more sets of segmented lifting flights. The sets of flights may not be in alignment. The flights may be spaced apart from the inside surface of the drum with segmented rib members. The rib members may allow for the movement of sulfur seeds and granules between the nights and the inside surface of the drum as the drum rotates. | 08-07-2014 |
20140239526 | PROCESS FOR PRODUCING PELLETS FOR PHARMACEUTICAL COMPOSITIONS - Water is used to control particle size in a process comprising mixing water with a composition comprising a rheology modifying agent and possibly sugar and cellulose to produce a paste. The paste is extruded to form particles which are then spheronised and dried. One advantage of using water to control particle size is that the number of particles having a diameter within a required range, e.g. between from about 800 to about 1500 μm, may be increased. | 08-28-2014 |
20140346698 | METHOD OF SPRAY-DRYING AND APPARATUS FOR SPRAY-DRYING - Method of spray-drying a high-viscosity fluid, e.g. comprising a food product. The method comprises providing a nozzle plate wherein at least one nozzle is provided, said nozzle plate having an inner main surface and an outer main surface. The method comprises providing the high-viscosity fluid in a reservoir that is in fluidum connection with the at least one nozzle. The method comprises pressurizing the high-viscosity fluid in the reservoir, wherein the fluid flows, as a result of said pressurizing, towards the nozzle plate, thus creating a pressure difference over the at least one nozzle so that the fluid flows out of the at least one nozzle, thereby passing the outer main surface after passing the inner main surface. A cross-sectional area of the at least one nozzle in the inner main surface exceeds a cross-sectional area of the at least one nozzle in the outer main surface. | 11-27-2014 |
20150102514 | APPARATUS AND PROCESS FOR HIGH THROUGHPUT POWDER PRODUCTION - Apparatuses and processes for forming powder are disclosed. The apparatus includes a chamber having a head plate and an array of aerosol and burner nozzles attached to the head plate for generating aerosols and flames respectively. Powder is produced by atomizing a liquid composition to project an aerosol of droplets into the chamber and heating the aerosol with flames projected by the burner nozzles. | 04-16-2015 |
20150130097 | METHOD FOR MANUFACTURING AN ANTIMICROBIAL FILAMENT FIBRE AND METHOD FOR MANUFACTURING AN ANTIMICROBIAL FABRIC - A method for manufacturing an antimicrobial filament fibre includes the following steps of: mixing diiodomethyl p-tolyl sulfone with a plastic mother particle so that the particle contains diiodomethyl p-tolyl sulfone; and melt-spinning the particle to form the antimicrobial filament fibre. | 05-14-2015 |
264014000 | Into moving fluid | 12 |
20080197519 | Strand Shaping Part and Method for Starting the Same - A strand shaping part for connecting an extruder ( | 08-21-2008 |
20090072424 | Process for the preparation of particles based on a thermoplastic polymer and powder thus obtained - The invention relates to a process for the preparation of particles based on a thermoplastic polymer with a mean diameter of less than 1 mm. The process of the invention comprises more particularly a stage of preparation of a composition comprising the thermoplastic polymer and an additive, in the molten state, of cooling the composition and of disintegration of the thermoplastic polymer dispersion. | 03-19-2009 |
20090134537 | Method and apparatus for making crystalline polymeric pellets and granules - A method and apparatus for underwater pelletizing and subsequent drying of crystallizing polymers to crystallize the polymer pellets without subsequent heating is shown in FIG. | 05-28-2009 |
20090309247 | Positionable gas injection nozzle assembly for an underwater pelletizing system - A positionable gas nozzle assembly for injecting and directing pressurized air or other gas having an inert nature into a pellet slurry so as to increase the velocity of the slurry from a pelletizer to and through a dryer. The variably positionable nozzle can be inserted, retracted and/or intermediately positioned to facilitate start-up of the pelletization process, reduce or eliminate pellet hang-up points, maximize and optimize the velocity of the pellet slurry throughput, and to adjust the aspiration level of the pellet slurry such that the internal heat of the pellets is retained for improved degrees of crystallization and/or drying. | 12-17-2009 |
20100187707 | METHOD AND DEVICE FOR GRANULATING THERMOPLASTIC MATERIAL - The methods and apparatuses for granulating thermoplastic material emerging from nozzles in a perforated plate are provided. The apparatus can have a motor-driven cutter arrangement having at least one blade located opposite the perforated plate. The at least one blade can pass over the nozzles in the perforated plate and cuts pellets of the emerging thermoplastic material. | 07-29-2010 |
20100289166 | DROP PELLETIZING DEVICE AND METHOD FOR THE OPERATION THEREOF - A drop pelletizing device and method for producing pellets from a low-viscosity plastic melt are provided. The drop pelletizing device can include a die plate with holes, in which the plastic melt can be subjected to a harmonic pressure oscillation such that the plastic melt emerging from the holes forms individual pellet droplets, a pressure vessel, in which prevails an overpressure above the ambient pressure, a discharge device adapted to discharge the individual pellet droplets from the pressure vessel and to reduce the overpressure, a separator adapted to separate the individual pellet droplets from the coolant; and at least one circulating device adapted to agitate the coolant to separated and unclump the individual pellet droplets in the coolant and for producing turbulence within the coolant. | 11-18-2010 |
20100308483 | Process and Arrangement for Producing Particles Utilizing Subcritical Fluids - A method for producing particles of predetermined sized and/or morphology of a substance in a production arrangement comprising the steps of: i) mixing within a spray nozzle and under flow conditions a stream of a liquid solution in which the substance is dissolved with a stream of a fluid, and ii) passing the mixture in the form of a spray through a spray outlet of the nozzle into a particle collecting container, and iii) separating and collecting within the container the particles. The characteristic feature is that the solvent is a liquid and the fluid is an aqueous liquid in a subcritical state. Preferred nozzles have two coaxial internal transport conduits. One aspect is a production arrangement that can be used in the method. Its characteristic features are functions for a) recycling fluid used in the process, b) for including a make-up agent in the fluid stream, and/or increasing production by paralleling particle formation. | 12-09-2010 |
20100308484 | Method and Arrangement for the Production of Particles - A method for producing particles, from a substance, having predetermined size and/or morphology characteristics. The method consists of mixing within a spray nozzle a solution stream containing the substance in dissolved or dispersed form with a supercritical fluid stream. Spraying the mixture through a nozzle into a particle collecting chamber and there separating the particles. The characteristic feature is an additional step, providing a make-up agent (modifier) to the fluid stream, possibly combined with recycling of the fluid and/or performing the method essentially simultaneously in several spray nozzles. Additional features are also a production system comprising functions for performing the method above and the introduction of the make-up agent, recycling of the fluid and performing several runs essentially simultaneously in the same production system. Also a pharmaceutical formulation in which particles produced according to the method has been used for its manufacture. | 12-09-2010 |
20110012274 | COLORANT CONCENTRATES FOR THERMOPLASTIC BIOFIBER COMPOSITES - Color concentrates for thermoplastic biofiber composites are disclosed. The concentrates employ three factors to achieve concentrated delivery of color to the processing machine and excellent and substantially uniform dispersion of color in the processing machine: melt flow of the concentrate exceeding at least 4 g/10 min. using ASTM D-1238; pellet size of the concentrate such that at least 50 pellets weigh less than one gram; and weight percent of the colorant ingredients in the concentrate exceeding at least 30 weight percent. | 01-20-2011 |
20130300013 | WET SPINNING APPARATUS AND METHOD FOR WET SPINNING - Disclosed are a wet spinning apparatus and a wet spinning method, which enable to manufacture fibers with excellent quality by controlling the flow of a coagulation liquid in a spinning bath and which enable to cope with high speed spinning (or high speed drawing). A wet spinning apparatus comprises a spinning bath at one end in which there are provided a nozzle for discharging a spinning raw liquid and coagulation liquid discharge ports and for discharging a coagulation liquid, at the other end in which there are provided a drawing roll for drawing coagulated filaments and a coagulation liquid recovery portion into which the coagulation liquid flows out. The spinning bath has a coagulation bath portion having a cross sectional area gradually reduced from one end to the other end, for coagulating the spinning raw liquid, and a filament running portion having a cross sectional area gradually enlarged from one end to the other end, for allowing the coagulated filaments to run therein. | 11-14-2013 |
20130307171 | WASHING DEVICE FOR POROUS HOLLOW FIBER MEMBRANES, AND POROUS HOLLOW FIBER MEMBRANE PRODUCTION METHOD - This invention relates to a washing device for a porous hollow fiber membrane, including: n (n is an integer of 2 or greater) washing tanks that contain a washing liquid, through which the porous hollow fiber membrane sequentially passes; and at least one pressure applying unit that pressurizes or de-pressurizes the washing liquid on the outer side of the porous hollow fiber membrane immersed in the washing liquid to force the washing liquid to pass through a membrane part of the porous hollow fiber membrane, in which the pressure applying unit is accommodated in at least one of the first to (n−1)-th washing tanks. According to the invention, it is possible to provide a porous hollow fiber membrane production method that is capable of reducing the concentration of residual substances in membrane retained water and preventing reattachment of a hydrophilic polymer. | 11-21-2013 |
20140103556 | MULTI-ZONE SPINNERET, APPARATUS AND METHOD FOR MAKING FILAMENTS AND NONWOVEN FABRICS THEREFROM - A spinneret, apparatus, and method are provided for making filaments for fibrous nonwoven fabrics with more uniform filament and fabric formation while minimizing filament breaks and hard spot defects in webs and fabrics made therefrom. The spinneret has a spinneret body that has an overall length to hydraulic diameter ratio and defines orifices that extend through the spinneret body, wherein the orifices comprise capillaries that open at a face of the spinneret body for polymer filament extrusion therefrom, wherein the capillaries are arranged in a plurality of different rows at the face of the spinneret body, and wherein the plurality of different rows are arranged into a plurality of different zones at the face of the spinneret body. A spinneret body of the spinneret can have an overall length to hydraulic ratio of at least 3 percent and/or a zone-to-zone length to hydraulic ratio of at least 2% and/or the hydraulic diameters, lengths, and length to hydraulic diameter ratios can progressively increase or decrease zone-to-zone for at least three different zones of capillaries, which can be applied to cross-flow quench or quench from a single-side. The spinneret body is designed to better accommodate differing operational proximity of the various different zones to quench air sources or source at commercially useful throughputs and fiber uniformity. | 04-17-2014 |