专利检索_制作人造长丝或类似物的一般方法专利检索_制作人造长丝或类似物的一般方法专利检索查询

子分类：

D01F1/02：.纺丝溶液或溶融液的添加物（黏胶液的添加物入D01F2/08）

序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
301		JP411572	1971-12-28	JPS512688B2	1976-01-28

302		JP3810974	1974-04-03	JPS50132216A	1975-10-20

303		JP9585173	1973-08-27	JPS5030692B2	1975-10-03

304		JP1363774	1974-02-04	JPS50107205A	1975-08-23

305		JP13992273	1973-12-11	JPS5088325A	1975-07-16

306		JP9585173	1973-08-27	JPS5046827A	1975-04-25

307		JP12211572	1972-12-07	JPS4866127A	1973-09-11

308	電気的パラメータ補助湿式紡糸法	JP2020505201	2017-11-30	JP2020529529A	2020-10-08	ユウンリョル; ヤンホソン; ハンフンナム
本発明は、電気的パラメータ補助湿式紡糸法に関する。本発明による電気的パラメータ補助湿式紡糸法は、高分子及び溶媒を含む紡糸液に電圧を印加して前記紡糸液をイオン化する工程と、前記イオン化された紡糸液を凝固液中に紡糸して凝固糸を得る工程と、前記凝固糸を延伸して高分子繊維を形成する工程とを含み、イオン化された紡糸液によって凝固糸内部の溶媒と凝固液内の非溶媒との交換を促進させることで、力学的特性が向上した高分子繊維を製造することができる。
309	Production of agglomerate from gas phase	JP2013142628	2013-07-08	JP2013241723A	2013-12-05	KINLOCH IAN ANTHONY; LI YALI; WINDLE ALAN H; CASH STEPHEN
PROBLEM TO BE SOLVED: To provide a high-yield production process in which products are easy to handle and are controlled in quality, in processing cross-linked carbon nanotube network structures into carbon nanotube fibers by dispersing the network structures and drying a solution.SOLUTION: A process for production of an agglomerate, comprises the steps of: passing a flow of one or more gaseous reactants into a reactor; reacting the one or more gaseous reactants within a reaction zone of the reactor to form product particles; agglomerating the product particles into an agglomerate; and applying force to the agglomerate to displace it continuously away from the reaction zone. The product particles comprise carbon nanotubes or carbon nanofibers. A cloud of fibrils suspended in gas is formed by reaction of a precursor substance in the reaction zone. Stretching force is applied to the cloud of fibrils to stretch the cloud, and the fibrils are condensed to form a fibrous agglomerated body.
310	Resin-made ultra-fine short fiber and a method of manufacturing the same	JP2007285964	2007-11-02	JP4883312B2	2012-02-22	直一佐々木; 大地崎田

311	Method of manufacturing a continuous filament made of a nano-fiber	JP2006546796	2004-02-02	JP4346647B2	2009-10-21	ヨンキム，ハグ

312	Roller oiling device for thermoplastic fiber and method for producing thermoplastic fiber	JP2007253506	2007-09-28	JP2009084721A	2009-04-23	YAMAGUCHI YOSHIO; MIYAZAKI TAKUO
PROBLEM TO BE SOLVED: To provide a roller oiling device for a thermoplastic fiber, which is effective for stabilizing the application of the oil in the longitudinal direction of a yarn and enabling the production of a high-quality fiber, and to provide a method for producing a thermoplastic fiber. SOLUTION: The roller oiling device applies an oil to a spun yarn with an oiling roller after cooling the spun yarn of a thermoplastic resin with a cooling device, wherein the oiling roller 4 has at least one groove 3 formed in the axial direction of the outer circumference of the roller and having a depth of 1 mm or more and a width of 10-80 mm in the direction parallel to the axis. COPYRIGHT: (C)2009,JPO&INPIT
313	Ultra fine fiber and method for producing the same	JP2006248272	2006-09-13	JP2007262644A	2007-10-11	OGOSHI YUTAKA; TAKASAKI MIDORI; KIMURA MUTSUMI; HIRAI TOSHIHIRO
PROBLEM TO BE SOLVED: To provide an ultra fine fiber having an extremely small diameter and high diameter uniformity and excellent in physical properties. SOLUTION: This method for producing the ultra fine fiber comprises melting a thermoplastic polymer as a raw material fiber 1 by irradiation with IR rays 11, applying a high voltage between the thermoplastic polymer 1 and a target 9, and drawing and thinning the thermoplastic polymer on the target 9 by the attractive force of a high voltage electric field. COPYRIGHT: (C)2008,JPO&INPIT
314	Method of manufacturing a continuous filament made of a nano-fiber	JP2006546796	2004-02-02	JP2007518891A	2007-07-12	ヨンキム，ハグ
従来のエレクトロスピニング方式によっては、連続状フィラメント（糸）を簡単で連続的な工程で製造することができない。本発明は、このような問題点を解決するために、高分子紡糸溶液をノズル（５）を通じてコレクター（７）にエレクトロスピニングして、リボン形態のナノ繊維ウエブ（１７ａ）を製造し、次いで、上記ナノ繊維ウエブ（１７ａ）をエア撚り糸装置（１８）内に通過させて撚り糸することにより、連続状フィラメント形態のナノ繊維フィラメント（１７ｂ）を製造し、次いで、上記ナノ繊維フィラメント（１７ｂ）を延伸することを特徴とするナノ繊維からなる連続状フィラメントの製造方法を提供する。
315	Regenerated cellulose fibers by tourmaline fine-particle-containing cupra method	JP27248696	1996-10-15	JP3682942B2	2005-08-17	正樹古宮; 俊雄杉原; 三男鈴木

316	Method for manufacturing hollow fiber membrane	JP2002363560	2002-12-16	JP2004195286A	2004-07-15	ISHIKAWA TAKESHI; YOSHIDA TAKESHI; NAKAJIMA SUSUMU
PROBLEM TO BE SOLVED: To manufacture a hollow fiber membrane having no defect at high yield. SOLUTION: The method for manufacturing the hollow fiber membrane is the method having a step for cooling the hollow fiber membrane melted/delivered from a nozzle with quench air. In the method, the quench air is air cleaned by a filter. The method for manufacturing the hollow fiber membrane is the method having a step for cooling the hollow fiber melted/delivered from the nozzle, coating with water and winding. In the method, the water is water cleaned by the filter. COPYRIGHT: (C)2004,JPO&NCIPI
317	Monofilament of synthetic resin and method for producing the same	JP2002186145	2002-06-26	JP2004027427A	2004-01-29	UCHIYAMA YUSUKE; NAKADA HIDEO; OKUMURA YOSHIHARU
<P>PROBLEM TO BE SOLVED: To provide a monofilament of a synthetic resin, having little unevenness of a filament diameter in the filament length direction to improve the flatness of a textile surface, and to provide a method for producing the monofilament. <P>SOLUTION: The monofilament of the synthetic resin is obtained by a direct spinning and drawing method, and has ≤0.25% unevenness of the filament diameter based on 300 m filament length. A spectrum peak intensity P<SB>pf</SB>at ≤12.5 (m) wave length converted from a frequency obtained when carrying out Fourier analysis of the unevenness of the filament diameter is ≤0.1. <P>COPYRIGHT: (C)2004,JPO
318		JP22347494	1994-09-19	JP3054320B2	2000-06-19
Process for preparing a flavouring agent, in which cooked leguminous plant seeds are fermented with a Bacillus subtilis or Bacillus natto strain, a mixture is prepared comprising the fermented seeds, a reducing sugar and water, the mixture is reacted by heating and the reaction product is dried.
319	PREPARATION OF SPICE	JP22347494	1994-09-19	JPH07170935A	1995-07-11	HEYLAND SVEN; HO DAC THANG; HOSE HUGH; WOOD ROBERT DUSTAN
PURPOSE: To obtain a flavorant which does not include bitterness, adjusts the smell of fermented soybeans and dawadawa and gives the taste of meat by fermenting a material including plenty of protein by a specific strain and adding reducing sugar and water to the fermented material, heating it and drying a responding production. CONSTITUTION: A heated seed especially a material including plenty of protein such as crushed soy beans, carobs seeds, etc., is fermented by using the specific strain of Bacillus subtilis or Bacillus natto. In addition, a mixture including the fermented material, at least one kind of reducing sugar and water is produced. Next, it is heated to allow the mixture to react desirably 120 to 150 deg.C for 1 to 40 min to dry the reaction product desirably to not higher than 2% residual moisture content 2% to obtain the objective flavorant.
320	ELECTRET FIBER	JP32294388	1988-12-21	JPH02169764A	1990-06-29	SUGIHARA TOSHIO
PURPOSE:To obtain a fiber product made as electret by adhering fine granular electret on tiber with adhesive of acrylic resin or urethane-based resin. CONSTITUTION:Mineral electret is crushed to fine granular shape of <=2 and adhered on fiber with adhesive of acrylic resin or urethanebased resin in a weight ratio of 1-10%. Thus, fiber product having effects for stimulating cellar structure, activating membrane potential of cellar membrane, promoting metabolism or circulation of the blood of human body and especially for oversensitive to cold, stiffness of the shoulders and senescence resisting.

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