181 |
PAPER RECYCLING DEVICE AND PAPER RECYCLING METHOD |
US14859789 |
2015-09-21 |
US20160010278A1 |
2016-01-14 |
Toshiaki YAMAGAMI; Ken IKUMA |
A paper recycling device includes a dry type defibrator, a first transport unit, a classifier unit, a second transport unit a paper forming unit and a control unit. The dry type defibrator unit is configured to defibrate first paper into defibrated material. The first transport unit is configured to transport the defibrated material after being defibrated by the dry type defibrator unit. The classifier unit is configured to delink by an air flow classification the defibrated material after being transported by the first transport unit. The second transport unit is configured to transport the defibrated material after being deinked by the classifier unit. The paper forming unit is configured to for second paper with the defibrated material after being transported by the second transport unit. The control unit is configured to control volume of the first paper supplied to the dry type defibrator unit. |
182 |
RESIN PRINTING PLATE PRECUSOR FOR LASER ENGRAVING |
US14765270 |
2014-01-20 |
US20150367668A1 |
2015-12-24 |
Hiroyuki KAWAHARA; Tsutomu ABURA |
It is an object of the present invention to provide a resin printing plate precursor for laser engraving that is able to form a relief by laser engraving, the relief having excellent image reproducibility, and moreover has toughness and improved printing durability. The present invention is a resin printing plate precursor for laser engraving comprising a substrate and a resin layer on the substrate, the resin layer containing: (A) a modified partially saponified polyvinyl acetate having reactive groups in its side chain; (B) a polyamide having basic nitrogen; (C) a compound having a 5- to 7-membered ring and a polymerizable ethylenic double bond; and (D) a photopolymerization initiator. |
183 |
Paper recycling device and paper recycling method |
US14484385 |
2014-09-12 |
US09194081B2 |
2015-11-24 |
Toshiaki Yamagami |
A paper recycling device includes a dry type defibrator unit, a first transport unit, a classifier unit, and a paper forming unit. The first transport unit is configured to transport using air flow the defibrated material after being defibrated by the dry type defibrator unit. The classifier unit is configured classify by an air flow the defibrated material after being transported by the first transport unit. The paper forming unit is configured to form second paper with the defibrated material after being classified by the classifier unit. The first transport unit includes a transport pipe configured to move the defibrated material, with a cross section surface area of a portion of the transport pipe on a side closer to the classifier unit being smaller than a cross section surface area of a portion of the transport pipe on a side closer to the dry type defibrator. |
184 |
Process for manufacturing composite materials |
US13634988 |
2011-03-15 |
US09187606B2 |
2015-11-17 |
Emilie Fisset; John Ellis |
The invention relates to a prepreg comprising a structural layer of conductive fibers comprising thermosetting resin in the interstices, and a first outer layer of resin comprising thermosetting resin, and comprising a population of conductive free filaments located at the interface between the structural layer and the outer resin layer which, when cured under elevated temperature, produces a cured composite material comprising a cured structural layer of packed conductive fibers and a first outer layer of cured resin, the outer layer of cured resin, comprising a proportion of the population of conductive free filaments dispersed therein, and to a process for manufacturing prepregs wherein the electrically conductive fibers pass a fiber disrupting means to cause a proportion of the fibers on an external face of the sheet to become free filaments. |
185 |
PROCESS FOR DEGASSING AND BUFFERING POLYOLEFIN PARTICLES OBTAINED BY OLEFIN POLYMERIZATION |
US14651124 |
2013-12-11 |
US20150315302A1 |
2015-11-05 |
Giuseppe Penzo; Giulia Mei; Gabriele Mei; Antonio De Lucia; Pietro Baita |
Process for preparing a polyolefin polymer comprising the steps of a) forming a particulate polyolefin polymer by polymerizing one or more olefins in the presence of a polymerization catalyst system in a polymerization reactor; b) discharging the formed polyolefin particles from the polymerization reactor; c) degassing the polyolefin particles by a process comprising at least a final step of contacting the polyolefin particles with a nitrogen stream in a degassing vessel; and d) transferring the polyolefin particles from the vessel, in which the contacting of the polyolefin particles with the nitrogen stream is carried out, to a melt mixing device, in which the polyolefin particles are melted, mixed and thereafter pelletized, without passing the particles through a buffering device, wherein the degassing vessel is only partly filled with polyolefin particles and the empty volume within the degassing vessel is sufficient to take up additional polyolefin particles for at least 3 hours if the transfer of polyolefin particles of step d) from the degassing vessel to the melt mixing device is discontinued and the discharge of polyolefin particles from the polymerization reactor according to step b) is continued with unchanged rate. |
186 |
MELT PUMPS FOR PRODUCING SYNTHETIC GRANULES, EXTRUDED PROFILES OR MOLDED PARTS |
US14565983 |
2014-12-10 |
US20150086669A1 |
2015-03-26 |
Michael Henke |
Melt pumps for producing synthetic granules, extruded profiles or molded parts are disclosed. One disclosed example apparatus includes a worm machine to move synthetic melt, a tool for producing granules, an extruded profile or a molded part, and a melt pump separate from the worm machine, where the melt pump is to press synthetic melt through the tool, and where the worm machine transfers the synthetic melt to the melt pump at a lower pressure than the synthetic melt provided by the melt pump to the tool. |
187 |
PAPER RECYCLING DEVICE AND PAPER RECYCLING METHOD |
US14484385 |
2014-09-12 |
US20140374047A1 |
2014-12-25 |
Toshiaki YAMAGAMI |
A paper recycling device includes a dry type defibrator unit, a first transport unit, a classifier unit, and a paper forming unit. The first transport unit is configured to transport using air flow the defibrated material after being defibrated by the dry type defibrator unit. The classifier unit is configured classify by an air flow the defibrated material after being transported by the first transport unit. The paper forming unit is configured to form second paper with the defibrated material after being classified by the classifier unit. The first transport unit includes a transport pipe configured to move the defibrated material, with a cross section surface area of a portion of the transport pipe on a side closer to the classifier unit being smaller than a cross section surface area of a portion of the transport pipe on a side closer to the dry type defibrator. |
188 |
SHELL, METHOD OF PREPARING THE SHELL AND ELECTRONIC PRODUCT COMPRISING THE SHELL |
US14466932 |
2014-08-22 |
US20140363623A1 |
2014-12-11 |
Jian SUN; Juan ZENG; Yunxia ZHANG; Jun CHENG |
A shell, a method of preparing the shell and an electronic product comprising the shell are provided. The shell may comprise: a metal shell body, a plastic part made of a resin, and an oxide layer formed between the metal body and the plastic part, joining the plastic part to the metal shell body, wherein the oxide layer contains corrosion pores having an average diameter of about 200 nm to about 2000 nm in the surface contacting the plastic part, and nanopores having a diameter of about 10 to 100 nm in the surface contacting the metal shell body, and a part of the resin is filled in the corrosion pore and corrosion pore. |
189 |
Paper recycling system and paper recycling method |
US13979089 |
2011-12-20 |
US08882965B2 |
2014-11-11 |
Toshiaki Yamagami; Ken Ikuma |
To provide a paper recycling device capable of recycling paper of increased whiteness level that can be widely used for applications other than paper for newspapers, the paper recycling device of the present invention has a dry type defibrator for crushing and defibrating paper, a first transport pipe for transporting defibrated material that was defibrated by the dry type defibrator, a cyclone for air classifying and deinking the defibrated material transported by the first transport pipe, a second transport pipe for transporting the defibrated material that was deinked by the cyclone, and a paper forming machine for forming paper with the defibrated material transported by the second transport pipe. |
190 |
PSEUDOTHERMOPLASTIC, SELF-CROSSLINKING COMPOSITES |
US14360442 |
2012-11-06 |
US20140323001A1 |
2014-10-30 |
Friedrich Georg Schmidt; Stefan Hilf |
In the present process, reversibly crosslinking composites or storage-stable prepregs are produced by means of a hetero Diels-Alder reactions (HDA,) for example of PMMA polymers. At slightly elevated temperature, these prepregs can be reversibly decrosslinked again by a retro hetero Diels-Alder reaction so that they become moldable. The back-reaction to products which are again crosslinked or high molecular weight then takes place at room temperature. |
191 |
SYSTEM AND METHOD FOR PREPARING, DISPENSING, AND CURING EPOXY |
US13837000 |
2013-03-15 |
US20140263402A1 |
2014-09-18 |
Keith Van Duinen; Miguel Rodriguez; Alejandro Leon |
A method for dispensing epoxy comprising the step of degassing an epoxy. The method further comprises the step of associating the epoxy with an epoxy injector comprising a dispensing end. The method further comprises the step of a computer receiving data representative of a selected container to receive the epoxy. The method further comprises the step of a computer determining a dispensing rate and a dispensing amount, based on the received data. The method further comprises the step of a computer causing the epoxy injector to dispense the determined dispensing amount of epoxy, via the dispensing end, at the determined dispensing rate. The method further comprises the step of a computer causing a dispensing arm, supporting the dispensing end, to retract the dispensing end while the epoxy injector is dispensing the epoxy. The method further comprises the step of curing the dispensed epoxy. |
192 |
Edible Oral Strip or Wafer Dosage Form Containing Ion Exchange Resin for Taste Masking |
US14123490 |
2012-05-30 |
US20140155483A1 |
2014-06-05 |
Michael Hsin Chwen Li; Markus Krumme |
An edible oral film strip dosage form containing an unpalatable acidic active pharmaceutical ingredient, particularly ketoprofen, and an ion exchange resin as a primary taste masking agent, along with an optional alkaline agent and further optionally containing one or more secondary taste masking agents is provided. The edible oral film strip dosage matrix is formed from at least one water soluble or miscible polymer(s). The optional secondary taste masking ingredients include one or more of flavoring agent(s), sweetener(s), cooling sensation agent(s), and taste receptor blocker(s). The inventive dosages minimize or completely mask the bitterness, burning sensation and throat irritation associated with many acidic active pharmaceutical ingredients. Methods for preparing the inventive edible oral film strip dosage forms are disclosed, as well as their method of administration. |
193 |
Deciduous teeth matrix jewelry and method of manufacture |
US13557016 |
2012-07-24 |
US08661849B2 |
2014-03-04 |
John G. Fischer |
The invention discloses jewelry made of disinfected, pulverized and chemically bonded primary teeth. The teeth are pulverized into two or more parts, located in a mold, and bonded with a bonding agent to form a tooth matrix that is shaped for connection to a jewelry frame. In another embodiment, a hollow interior of a deciduous tooth is filled with a bonding agent. The tooth is positioned in a mold with other tooth particles and bonded to form the tooth matrix. In another embodiment, the hollow interior and/or occlusal of a deciduous tooth is filled with a bonding agent to form a tooth matrix for mounting on a jewelry frame. A display side of the tooth is positioned adjacent to a display surface in a mold. A bonding agent fills the space between the tooth and the mold to form a solid tooth matrix. The solidified tooth matrix is machinable. |
194 |
INJECTION MOLDED ARTICLES FROM NATURAL MATERIALS AND METHODS FOR MAKING THEM |
US13855428 |
2013-04-02 |
US20130255537A1 |
2013-10-03 |
Dara L. Woerdeman; Scott Kinney; Marko Koorneef; Ken Bush |
Injection molded articles and methods for making them from bio-based materials are described. More specifically, injection molded articles and methods for making them from bio-based materials that behave like high-molecular-weight thermosets such as lignin or protein-based materials including corn gluten meal, corn gluten feed, distillers dried grains with solubles, wet distillers grains, modified wet distillers grains, canola meal, wheat gluten, barley, cottonseed meal, sunflower meal, linseed meal, soy, rapeseed, sorghum proteins, maize, rice proteins, potato proteins, cassava proteins, sweet potato proteins, yam proteins, plantain proteins, keratin, or collagen are described. |
195 |
Deciduous Teeth Matrix Jewelry and Method of Manufacture |
US13557016 |
2012-07-24 |
US20120288644A1 |
2012-11-15 |
John G. Fischer |
The invention discloses jewelry made of disinfected, pulverized and chemically bonded primary teeth. The teeth are pulverized into two or more parts, located in a mold, and bonded with a bonding agent to form a tooth matrix that is shaped for connection to a jewelry frame. In another embodiment, a hollow interior of a deciduous tooth is filled with a bonding agent. The tooth is positioned in a mold with other tooth particles and bonded to form the tooth matrix. In another embodiment, the hollow interior and/or occlusal of a deciduous tooth is filled with a bonding agent to form a tooth matrix for mounting on a jewelry frame. A display side of the tooth is positioned adjacent to a display surface in a mold. A bonding agent fills the space between the tooth and the mold to form a solid tooth matrix. The solidified tooth matrix is machinable. |
196 |
METHOD FOR CLEANING RESIN PELLETS |
US13127607 |
2009-10-30 |
US20110214699A1 |
2011-09-08 |
Izumi Sasai |
Disclosed is a method for producing a resin film or a resin sheet comprising a step of cleaning resin pellets and a step of forming the resin film or the resin sheet by using the cleaned resin pellets. The step of cleaning the resin pellets comprises a step of introducing the resin pellets and water into a first tube body, and a step of conveying the resin pellets and the water toward a discharge opening in the first tube body, and cleaning the resin pellets by removing foreign matters from the surfaces of the resin pellets by water flow. |
197 |
Process for removing bubbles from viscous polymer solutions |
US10318622 |
2002-12-13 |
US20030136268A1 |
2003-07-24 |
Bernhard
Seiferling; Achim
Muller; Iris
Jlona
Leder-Bruck; Mark
Hulsebusch |
In a process for removing bubbles from viscous polymer solutions (P) in which the content of dissolved gases lies below the saturation limit, the viscous polymer solution (P) is subjected to a superatmospheric pressure. The superatmospheric pressure is such that the gases contained in the bubbles of the polymer solution (P) dissolve. |
198 |
Method of making an improved preform |
US09683106 |
2001-11-19 |
US20030094723A1 |
2003-05-22 |
Kurt
H.
Ruppman
SR. |
Commercially available polyester-based resin that has been stored in ambient air is dried in an oxygen-depleted atmosphere, then heated to a temperature above the melting point and injected into a preform mold. Heating and injection molding of the resin is preferably conducted in an atmosphere substantially devoid of oxygen. Preforms made using the method exhibit reduced acetaldehyde levels compared to conventional methods. |
199 |
Aromatic polyester preform, blow molded product and preform production process |
US09381674 |
1999-09-23 |
US06426024B1 |
2002-07-30 |
Akio Komenoi |
A preform having a small content of acetaldehyde can be advantageously produced by forming a vent, from which air is exhausted during molding, at a specific position of a molding machine in order for an aromatic polyester to be advantageously exposed under reduced pressure in a molten state when a preform of the aromatic polyester is injection molded. |
200 |
Method for purifying a thermoplastic norbornene resin, a substrate using such a resin, and a magnetic recording medium using such a substrate |
US09828705 |
2001-04-06 |
US20010056051A1 |
2001-12-27 |
Youich
Tei; Syoji
Sakaguchi; Katsunori
Suzuki |
A thermoplastic norbornene resin is purified by using a cleaning liquid to eliminate organic impurities, ionic impurities, metallic impurities, and particles of the resin. The cleaning liquid is selected from 2-propanol and a mixed solvent of 2-propanol and water. A substrate for a magnetic recording medium of the invention is fabricated by injection-molding the thermoplastic norbornene resin purified by this method. A magnetic recording medium of the invention includes such a substrate, and a magnetic layer, a protective layer, and a liquid lubricant layer sequentially formed on the substrate. A method for manufacturing such a magnetic recording medium is also provided. |