Abstract: A method is described here for the layerwise construction of models, wherein, in a building region, a particulate material is applied layerwise and selectively cured. These steps are repeated until a desired model is obtained. The material comprises in this case a particulate building material and a spray-dried alkali metal silicate solution. Selective activation of the curing proceeds using a water-comprising solution.
Type:
Grant
Filed:
June 20, 2012
Date of Patent:
June 7, 2016
Assignee:
VOXELJET AG
Inventors:
Ingo Gnüchtel, Daniel Günther, Ingo Ederer, Christian Lustig, Edgar Müller
Abstract: Composite material for the making of decorative items which contains at least a polymeric component and at least a metallic powder dispersed in the polymeric component in an amount in weight between 2% and 95%. The metallic powder includes plate-like particles with a nanometric thickness of between 5 and 300 nm and a preferential growth in a two-dimensional surface with at least a dimension of between 0.6 and 100 ?m. A procedure for the making of an ornamental article includes at least a phase for preparing at least a base component of a silicone resin; at least a phase for preparing the metallic powder; at least an initial phase for mixing the metallic powder with the silicone resin base component to obtain an even mixture; and at least an initial phase for reticulating the base component in the even mixture with the metallic powder distributed in a homogeneous way.
Type:
Grant
Filed:
January 23, 2012
Date of Patent:
May 31, 2016
Assignee:
ECOMETAL SA
Inventors:
Sara Maria Carturan, Gianantonio Della Mea, Riccardo Ceccato, Sofia Nardo
Abstract: A process for the preparation of a dry crystalline metal organic framework which comprises: a) spray drying at least one metal ion and at least one organic ligand which is at least bidentate into a spray dryer in the presence of a solvent, wherein the reaction of the at least one metal ion with the at least one organic ligand to yield the metal organic framework and the drying of the obtained metal organic framework take place simultaneously inside the spray dryer, and b) collecting the formed dry crystalline metal organic framework.
Type:
Grant
Filed:
October 3, 2012
Date of Patent:
May 31, 2016
Assignee:
FUNDACIÓ INSTITUT CATALÁ DE NANOCIÉNCIA I NANOTECNOLOGIA
Inventors:
Daniel Maspoch Comamala, Inhar Imaz, Arnau Carné Sánchez, Antonia Maria Cano Sarabia
Abstract: A process for the preparation of a composite material from a particulate binder material having an average particle size (D9 0) of from 15 to 850 pm and a fibrous material having a density of from 150 to 550 kg/m3, comprising the steps of: a) blending the particulate binder material and the fibrous material, preferably in a weight ratio of 60:40 to 10:90, and b) subjecting the blended material obtained in a) to a curing step under increased temperature and pressure to obtain a composite material. The invention further relates to the composite material thus obtained, and to its use as building materials or as panelling.
Type:
Grant
Filed:
December 16, 2011
Date of Patent:
May 24, 2016
Assignee:
HOLLAND COMPOSITES INNOVATION B.V.
Inventors:
Pieter Jan Dwarshuis, Ronald Edward Van Riemsdijk
Abstract: A portable sample pulverizing and/or pelletizing system and method operable in conjunction with a repetitive impact device includes a base member with an upper surface, a hollow sample chamber with an open top end, an open bottom end disposed on the upper surface of the base member, and an internal annular cutaway portion adjacent the open top end; and a plunger member, which repetitively impacts a sample material disposed in the hollow sample chamber, the plunger member being configured at one end to matingly engage with a repetitive impact device.
Abstract: The invention relates to a process for compacting a polymeric powder in a press, wherein the polymeric powder is supported during compaction by a powder carrier, characterized in that said powder carrier comprises a layer of thickness (T), said layer comprising a material with a static coefficient of friction (COF), and wherein T×COF is at least 10 ?m. The invention also relates to a compacted polymeric powder obtainable with the above process.
Type:
Grant
Filed:
September 29, 2011
Date of Patent:
May 3, 2016
Assignee:
DSM IP ASSETS B.V.
Inventors:
Martin Antonius Van Es, Niels Hubertus Maria Eussen, Ronny Jacob Jensz
Abstract: A process is described for manufacturing articles by selective fusion of polymer powder layers, especially the rapid prototyping by solid-phase laser sintering of a powder based on a copolyamide of type 6 having a low enthalpy of cold crystallization. Further described, are the articles obtained by such a process.
Abstract: The present invention describes a method for building models in layers, wherein a first material and subsequent thereto selectively a second material are applied in layers in a build space, and these two application steps are repeated until a desired model is obtained. The two materials form a solid object in a suitable mixing ratio, the first material including a particulate material and the second material being applied with the aid of a print head. The first material, the second material and/or the particulate material include one or more diamines and/or one or more dicarbonyl compounds as the binder.
Abstract: In a method and apparatus for micropelletization of a polymeric material, a melt thread of the polymeric material is formed by an extruder. A flowing gas is directed to the melt thread to form Rayleigh disturbances in the melt thread and break up the melt thread into discrete microdroplets. The discrete microdroplets are then solidified to form micropellets.
Abstract: 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.
Type:
Grant
Filed:
October 11, 2013
Date of Patent:
April 19, 2016
Assignee:
HESTIA SYSTEMS, LLC
Inventors:
Hai Wang, Yang Lee Wang, Erin Napua Kampschroer
Abstract: The invention relates to a method for forming a deposit of a fragile material on a substrate (3) by spraying a powder (1) of said material, said method including the following steps: producing an aerosol containing said powder (1) in a so-called aerosol chamber (10); accelerating the aerosol through a nozzle (31) in a so-called deposition chamber (30) having a negative pressure relative to the aerosol chamber (10); and spraying the aerosol onto the substrate (3), wherein the grains constituting the powder (1) fragment and form said deposit upon impact with the substrate (3), said method being characterized in that the formation of the deposit is controlled on the basis of a three-dimensional digital model of said deposit. The invention also relates to a device for implementing said method.
Type:
Grant
Filed:
November 23, 2012
Date of Patent:
April 19, 2016
Assignee:
CENTRE DE TRANSFERT DE TECHNOLOGIES CERAMIQUES (C.T.T.C.)
Abstract: Porous UO2 sintered pellets to be fed into an electrolytic reduction process for the purpose of metallic nuclear fuel recovery, include one or more hollow spaces formed from the surfaces toward the interiors thereof. When the porous UO2 sintered pellets are used in the electrolytic reduction process, the efficiency increases.
Type:
Grant
Filed:
April 18, 2013
Date of Patent:
April 5, 2016
Assignee:
KOREA ATOMIC ENERGY RESEARCH INSTITUTE
Inventors:
Sang-Ho Na, Dae-Yong Song, Ki Hong Kim, Sang-Oh Bae, Jong-Man Park, Chul Goo Ji, Hyong Jin Hwang
Abstract: A process for making a compressed wood smoking chip disc includes the following steps, which are not necessarily in order. First, providing a log. Next, drying the log. After that, removing bark and dry rot from the log. Following that, grinding the log into chips. Then, rehydrating the chips. Finally, compressing the chips into the compressed wood chip disc.
Type:
Grant
Filed:
December 15, 2014
Date of Patent:
March 29, 2016
Assignees:
Kelly Craig LLC
Inventors:
Geoffrey Franklin Gustafson, Kim Arthur Hemphill
Abstract: The invention provides a single stroke compression molding machine including: a die table having a die bore penetrating vertically; a slidable lower punch located below the die bore and having an upper end to be inserted to the die bore; a slidable upper punch located above the die bore to face the lower punch and having a lower end to be inserted to the die bore; and a dust collector configured to collect dust on an upper surface of the die table in a state where the lower end of the upper punch is located in the die bore.
Abstract: By mooring or slowly moving the catamaran in a current through which a garage patch formed of disused plastic particles over than 90% is drifting, a heap of the marine debris flows into the bow of the catamaran and then is smashed. While the disused plastic particles that have been smashed at the bow of the catamaran is moving from the bow toward the stern by way of the tunnel between hulls of the catamaran, the plastic particles are first classified by differences of densities. These first classified plastic particles are collected and then transferred into a narrow and long inside of the catamaran, being finally classified by a triboelectrostatic action. Thereafter, these finally classified plastic particles are made to be pallets which are to be transported to a land facility for recycling or abandoning them.
Type:
Grant
Filed:
September 4, 2012
Date of Patent:
March 22, 2016
Assignee:
KOREA INSTITUTE OF OCEAN SCIENCE & TECHNOLOGY
Inventors:
Hee Jin Kang, Myung Soo Shin, Dong-Kon Lee, Jin Choi
Abstract: There is proposed a powder application device P for producing blanks of thermoplastically deformable semifinished products for use as reinforcement elements, starting from a powder mixture containing a meltable plastics powder, comprising a downwardly open powder container B and a perforated stencil L, arranged beneath the latter and spaced apart therefrom, having one or more hole cutouts, said device being characterized in that the powder container B is rigidly connected to the perforated stencil L and is vertically lowerable as far as an auxiliary support or a distance of at most 5 mm therefrom, and is closable at its lower end by means of a horizontal closing plate S having a thickness slightly less than the distance between the powder container B and the perforated stencil L, wherein the closing plate S is movable in a horizontal plane such that it alternately closes and reopens the lower end of the powder container B.
Type:
Grant
Filed:
October 25, 2011
Date of Patent:
March 1, 2016
Assignee:
Rhenoflex GmbH
Inventors:
Emil Wilding, Michael Deilecke, Antonio Puma, Thorsten Katzenberger, Joerg Wottawa
Abstract: The invention relates, in particular, to a ceramic-powder and/or metal-powder press tool, comprising at least one base body (21), a plurality of at least two punches (22-25) which, in a press position, are arranged to be insertable from one side into a die cavity (3) of a die (2) filled with ceramic and/or metal powder (P), a plurality of at least two punch carriers (26-29) each for the attachment of one of the punches, wherein at least part of the die carriers (28; 29) is couplable to at least two adjustment drives (39-42) and wherein the punch carriers are arranged to be adjustable relative to each other and relative to the base body, and positive-stop devices (48°, 49, 50) arranged to divert at least part of a pressing force (Fp) from the punches via the base body in a press end position, wherein at least one of the punch carriers is coupled to or mounted on at least two coupling rods (30-33) and each of the coupling rods is couplable to or mountable on its own such adjustment drive.
Type:
Grant
Filed:
November 12, 2011
Date of Patent:
March 1, 2016
Assignee:
Dorst Technologies Gmbh & Co. Kg
Inventors:
Roland Menzel, Michael Thomas Silbermann, Mathias Metz
Abstract: Method and systems for manufacturing a tablet comprising an electronic device are disclosed. In one method, a powdered material is provided into a die cavity of a tablet press and an electronic device is dispensed from a tape-and-reel carrier tape operatively coupled to the tablet press into the die cavity. The powdered material and the electronic device are compressing to form a tablet. A system comprises a tablet press comprising a die cavity for receiving a powdered material and an electronic device therein, an upper punch, and a lower punch. The upper and lower punches are operative to form the powdered material and the electronic device into a tablet. A tape-and-reel carrier tape is operatively coupled to the tablet press, where the carrier tape is configured for holding the electronic device. A transfer mechanism is used to transfer the electronic device from the tape carrier to the die cavity.
Type:
Grant
Filed:
July 22, 2013
Date of Patent:
March 1, 2016
Assignee:
Proteus Digital Health, Inc.
Inventors:
Benedict Costello, Timothy Robertson, Patricia Johnson, Robert Duck, Richard Huang, Rod Nicholas, Brad Cozad, Hooman Hafezi, Kurt Scheinpflug, Zahedeh Hatamkhany
Abstract: A method for processing feed material to produce dense and spheroidal products is described. The feed material is comprised of powder particles from the spray-drying technique or solution precursor droplets from ceramic or metallic materials. The feed material is processed using plasma generated from a microwave. The microwave plasma torch employed is capable of generating laminar flow during processing which allows for the production of spheroidal particles with a homogenous materials distribution. This results in products having improved thermal properties, improved corrosion and wear resistance and a higher tolerance to interface stresses.
Abstract: A method of forming solid beads, the method comprising: Providing a first liquid comprising a solute and a solvent Forming liquid droplets of the first liquid Contacting the liquid droplets with a second liquid so as to cause the solvent to exit the droplets, thus forming solid beads, the solute comprising a polymer, the concentration of polymer in the first liquid being at least 7% w/v., the solubility of the solvent in the second liquid being at least 5 g of solvent per 100 ml of second liquid.