Osabe
Katsunori Osabe, Hadano-Shi JP
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20140345354 | ENGINE VALVE FORGING SYSTEM - An engine valve forging system includes a molding forging die having a circular hole stem molding portion continued to a tip end of a head type molding portion, to mold an engine valve by extrusion-forging a material from the head type molding portion to the stem molding portion by an upper die, and a stem guide forging die which is coaxially disposed to communicate with a tip end of the stem molding portion, and has a guide portion for a stem portion of an engine valve extruded from the stem molding portion, and a plurality of stem curve restraining portions having a shape gradually tapering toward a central shaft line from a rear end portion to a tip end portion are formed continuously along the central shaft line of the guide portion in the guide portion, to be capable of manufacturing high-precision engine valves with less stem curve. | 11-27-2014 |
Masahiro Osabe, Otsu-Shi JP
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20120174790 | WATER-VAPOR-PERMEABLE MEMBRANE, HOLLOW-FIBER MEMBRANE, AND HOLLOW-FIBER MEMBRANE MODULE - A water vapor permeable membrane is provided comprising a dense layer and a support layer that are adjacent to each other, wherein the dense layer contains voids with a void length of 0.1 μm or less and the dense layer has a thickness of 0.1 μm or more and 2 μm or less while in the support layer, void (a), i.e. the void with the largest length in the 2 μm thick region measured from the boundary between the dense layer and the support layer into the support layer, has a length of 0.3 μm or more and void (b), i.e. the void with the largest length in the region ranging between 2 μm and 4 μm measured from the boundary into the support layer, has a length of 0.5 μm or more, the length of the void (b) being larger than that of the void (a). A water vapor permeable membrane having both a high water vapor permeability and a low air leakage is provided. | 07-12-2012 |
20150313943 | METHOD OF PREPARING PLATELET SOLUTION REPLACED WITH ARTIFICIAL PRESERVATION SOLUTION - A method of producing a platelet solution replaced with an artificial preservation solution includes a filtering step of carrying out cross-flow filtration of a platelet solution under the conditions of Formula (1) at an inlet wall shear rate of 25 to 1500 s | 11-05-2015 |
20150343394 | HOLLOW FIBER MEMBRANE MODULE, METHOD FOR PRODUCING HOLLOW FIBER MEMBRANE, AND METHOD FOR PRODUCING HOLLOW FIBER MEMBRANE MODULE - An object of the present invention is to provide a dry-type hollow fiber membrane module which is excellent in blood compatibility and elutes little eluted substance, and a hollow fiber membrane built in the module, and a method for producing a hollow fiber membrane module. Disclosed is a hollow fiber membrane module including a built-in hollow fiber membrane including a hydrophobic polymer and a hydrophilic group-containing polymer, the hollow fiber membrane module satisfying the following items: (a) the water content of the hollow fiber membrane is 10% by weight or less relative to the tare weight of the hollow fiber membrane, (b) the hydrophobic polymer contains no nitrogen, the hydrophilic group-containing polymer contains nitrogen, and the nitrogen content of the hollow fiber membrane is 0.05% by weight or more and 0.4% byweight or less, (c) the content of the hydrophilic group-containing polymer in the inner surface of the membrane is 20% by weight or more and 45% by weight or less, and (d) the consumption amount of an aqueous potassium permanganate solution (2.0×10 | 12-03-2015 |
20160052804 | POROUS MEMBRANE AND WATER PURIFIER - The present invention addresses the problem of providing a porous membrane for a water purification purpose, which can be used even under high water pressures and which has both virus-removing performance and water permeability. The problem can be solved as follows: a porous membrane is provided, wherein the average pore shorter-axis diameter in one surface is smaller than that in the other surface, and in a cross section of the membrane in the thickness direction, the pore diameters increase from one surface toward the other surface to have at least one maximum value and then decrease. The membrane has a layer which is provided on the side of the surface having a larger average pore shorter-axis diameter and which has pore diameters of 130 nm or less in the cross section of the membrane, wherein the layer has a thickness of 0.5 to 20 μm inclusive and the layer has pores each having a pore diameter of 100 to 130 nm inclusive. | 02-25-2016 |
Masahiro Osabe, Shiga JP
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20100000936 | HOLLOW-FIBER MEMBRANE AND HOLLOW-FIBER MEMBRANE MODULE HAVING THE SAME INCLUDED THEREIN - The present invention provides hollow fiber membranes and a hollow fiber membrane module having the same included therein, which even when highly filled, can reduce the size of the module and simultaneously maintain a crimped state enabling a good flow of a dialysate or buffer in the module by an easy process, characterized in that the hollow fiber membrane is provided with a crimp having a wavelength of 15 to 25 mm and a crimp angle determined by the wavelength and an amplitude of 0.09 to 0.32. | 01-07-2010 |
Masahiro Osabe, Otsu JP
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20140178992 | MEMBRANE-SEPARATION-TYPE CULTURE DEVICE, MEMBRANE-SEPARATION-TYPE CULTURE KIT, STEM CELL SEPARATION METHOD USING SAME, AND SEPARATION MEMBRANE - A membrane separation culture device includes an upper structure including a vessel in which at least a portion of the bottom thereof is formed with a separation membrane having pores that allow stem cells to permeate therethrough, and a lower structure including a vessel that retains a fluid in which the membrane of the upper structure is immersed. | 06-26-2014 |
20150053609 | POLYSULFONE-BASED HOLLOW FIBER MEMBRANE AND HOLLOW FIBER MEMBRANE MODULE THAT PURIFIES BLOOD PREPARATIONS - A polysulfone-based hollow fiber membrane that purifies blood preparations, including a hydrophilic polymer on a surface thereof which contacts the blood preparation, wherein an abundance ratio of the hydrophilic polymer is from 40 to 60% by mass, and porosity at the surface is 8 to 30%. | 02-26-2015 |
Masami Osabe, Chiba-Shi JP
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20140322764 | MUTANT XYLANASE, MANUFACTURING METHOD AND USE THEREFOR, AND METHOD FOR MANUFACTURING SACCHARIFIED LIGNOCELLULOSE - What is aimed at is provision of an inexpensive and efficient saccharification method for lignocellulose using a thermostable xylanase and provision of a mutant xylanase that has a substitute amino acid residue, and that exhibits stable activity even under severe conditions in which enzymes easily inactivate, and that provides an initial rate of reaction not significantly reduced as compared to a wild-type xylanase corresponding to the mutant xylanase. Provided is a method of producing a saccharified product of lignocellulose, including contacting a lignocellulosic raw material with a thermostable xylanase, and a mutant xylanase that provides an initial rate of reaction that is at least 70% of that provided by a wild-type xylanase corresponding thereto, that has a xylanase activity after heat treatment at 50° C. for 24 hours that is at least 50% of its xylanase activity before the heat treatment, and that has a substitute amino acid residue. | 10-30-2014 |
Masami Osabe, Mobara-Shi JP
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20120244579 | PROCESS FOR PRODUCTION OF MONOSACCHARIDE - A monosaccharide production method of producing a monosaccharide from a lignocellulosic raw material comprising: obtaining a saccharified liquid obtained from a lignocellulosic raw material and a saccharification enzyme; recovering the saccharification enzyme from the saccharified liquid by allowing the saccharification enzyme to be adsorbed on the lignocellulosic raw material; and saccharifying the lignocellulosic raw material using the recovered saccharification enzyme. | 09-27-2012 |
Ryo Osabe, Osaka JP
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20160131683 | MAGNETIC SENSOR AND ELECTRICAL CURRENT SENSOR USING THE SAME - A magnetic sensor has a first tube-shaped bias magnet and a first magnetic sensor element. The first tube-shaped bias magnet has a bottom face, a top face facing the bottom face, and an outer side surface and an inner side surface both located between the bottom face and the top face, and includes an N pole formed by magnetizing one of the bottom face and the top face and an S pole formed by magnetizing a remaining one of the bottom face and the top face. The first magnetic sensor element is located in an inner space surrounded by a plane including the bottom face, a plane including the top face, and the inner side surface. The magnetic sensor can detect intensity of an external magnetic field with high accuracy. | 05-12-2016 |