[특허]Process for the production of fiber-reinforced semi-finished articles made of thermoplastics of medium to high viscosity

[미국특허] Process for the production of fiber-reinforced semi-finished articles made of thermoplastics of medium to high viscosity 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	B29C-070/56
출원번호	US-0862682 (1997-05-23)
우선권정보	DE-0023241 (1992-07-15)
발명자 / 주소	Heckel, Horst Skaletz, Detlef Wagner, Bruno Heydweiller, Joachim
대리인 / 주소	Frommer Lawrence & Haug LLP
인용정보	피인용 횟수 : 15 인용 특허 : 11

초록 ▼

Fiber-reinforced semi-finished articles made of thermoplastics of medium to high viscosity and a process for their production. To produce a fiber-reinforced composite material, a multiplicity of continuous filaments having single-filament diameters of 7 to 30 micrometers are arranged in parallel in the form of a band and tensioned, and the filament band is wetted by a thermoplastic polymer melt in a melt pultrusion process. In this process, the filament band is pulled over at least two heated spreader surfaces. The viscosity of the melt, measured at low shearing rates, is 105 to 2500 Pa·s. The tension upon entering the first spreader surface is 5 N to 50 N per 4000 single filaments, and the speed of the filament band is at least 3 m/min.

대표청구항 ▼

1. A process for the production of a fiber-reinforced composite material in an impregnation device, which, in order to form a filament band, comprises: pulling a multiplicity of continuous filaments having single-filament diameters of 7 to 30 micrometers, which are arranged in parallel and tensioned, over heated spreader surfaces including a first spreader surface, the spreader surfaces and the filament band defining nips, wherein the filament band upon entering the first spreader surface has a tension of from 5 N to 50 N per 4000 single filaments and a speed of at least 3 m/min, said tension and speed achieved by pulling the filament band, feeding a thermoplastic polymer melt, having a viscosity of 105 to 2500 Pa·s, measured at a low shearing rate, through a feed opening in the device, wherein the feed opening for the melt is not in contact with the continuous filaments, dragging the melt into the nips with the pulled filament band, which is brought into contact with the melt prior to the contact with the first spreader surface, wherein the tension and the speed of the band press melt through the band, thus effectively impregnating the filament band, and then cooling the band to provide a solidifying melt impregnated filament band with a content of continuous filaments of from 5 to 70% by volume. 2. The process as claimed in claim 1, wherein a tension of the impregnated filament band at take-off from the last spreader surface is at least 50 N per 4000 single filaments. 3. The process as in claim 1, wherein the speed of the filament band is from 10 to 30 m/min. 4. A process for the production of a fiber-reinforced composite material in an impregnation device comprising the steps of: pulling a multiplicity of continuous filaments, which have a filament diameter in the range of from about 7 to 24 μm and which are arranged in parallel to form a filament band, over a multiplicity of heated spreader surfaces, including a first and last spreader surface, thereby generating a tension on the filament band, and the filament band and the spreader surfaces defining nips; feeding a thermoplastic polymer melt through a feed opening into the device and dragging the melt into the nips, thereby pressing the melt through the band to effectively impregnate the filament band; and cooling the filament band to provide a solidifying melt impregnated filament band; wherein the filament band is pulled through the impregnation device at a speed of at least 3 m/min over at least three spreader surfaces of undulatory design, the thermoplastic polymer melt has a viscosity of 105 to 2500 PA·s, measured at a low shear rate, the feed opening is not in contact with the filaments, the filaments are brought into contact with the thermoplastic polymer melt prior to a contact with the first spreader surface, upon entering the first spreader surface the tension of the impreated filament band is from 5N to 50N per 4000 single filaments, at take-off from the last spreader surface, the tension of the impregnated filament band is at least 50N per 4000 single filaments and, the impregnated filament band has a content of continuous filaments from 5 to 50% by volume. 5. The process as claimed in claim 4, wherein the impregnation device is completely filled with the thermoplastic polymer melt. 6. The process as claimed in claim 4, wherein said viscosity is approximately 130 to 2000 Pa·s. 7. The process as claimed in claim 4, wherein said speed is approximately 10-30 m/min. 8. The process as claimed in claim 4, wherein the tension of the filament band upon entering the first spreader surface is approximately 20 to 80% of a tear strength of the filament band before impregnation. 9. The process as claimed in claim 4, wherein said impregnated filament band has a portion of free fiber surface determined by x-ray diffraction of less than 25%.

이 특허에 인용된 특허 (11) 인용/피인용 타임라인 분석

Montsinger Lawrence V. (1837 Kilmonack La. Charlotte NC 28226), Apparatus and method for forming fiber filled thermoplastic composite materials.
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Glemet Michel (Serguigny FRX) Cognet Gilles (Bernay FRX), Apparatus for the manufacture of sections of thermoplastic resin reinforced with continuous fibers.
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Hawley Ronald C. (527 W. 5th St. Winona MN 55987), Fiber-reinforced compound composite structure and method of manufacturing same.
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Goldmann Gerd (Krefeld DEX) Lindner Wolfgang (Dormagen DEX), Manufacturing composite materials.
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Koba Tomohito (Yokohama) Nakakura Toshiyuki (Yokohama) Sakai Hideo (Ebina) Kishi Satoru (Yukosuka) Maruko Chiaki (Kamakura JPX), Method of manufacturing a sheet-prepreg reinforced with fibers.
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Moyer Richard L. (Newark DE), Methods of making continuous length reinforced plastic articles.
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Chung Tai-Shung (Summit NJ) Furst Howard (Berkeley Heights NJ) Gurion Zev (Charlotte NC) McMahon Paul E. (Mountainside NJ) Orwoll Richard D. (Mountainside NJ) Palangio Daniel (Woodbridge NJ), Process for preparing tapes from thermoplastic polymers and carbon fibers.
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Glemet Michel (Serquigny FRX) Gourdon Bernard (Dardez-Evreux FRX) Lottiau Michel (Bernay FRX), Process for producing thermoplastic resins reinforced with long fibers.
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Azari Arsalan D. (Cuyahoga Falls OH), Process for using an extruder die assembly for the production of fiber reinforced thermoplastic pellets, tapes and simil.
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Dyksterhouse Robert (Marathon FL) Dyksterhouse Joel (Marathon FL), Production of improved preimpregnated material comprising a particulate thermoplastic polymer suitable for use in the fo.
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Hilakos William (Mt. Vernon IN), Resin impregnation of fiber structures.
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이 특허를 인용한 특허 (15) 인용/피인용 타임라인 분석

Johnson, Aaron H.; Eastep, David W.; Regan, Timothy A.; Tibor, Timothy L., Asymmetric fiber reinforced polymer tape.
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Regan, Timothy A.; Johnson, Aaron H.; Eastep, David W., Die and method for impregnating fiber rovings.
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Regan, Timothy A.; Johnson, Aaron H.; Eastep, David W., Die and method for impregnating fiber rovings.
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Tibor, Timothy L.; Regan, Timothy A.; Johnson, Aaron H., Die and method for impregnating fiber rovings.
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Tibor, Timothy L.; Regan, Timothy A.; Johnson, Aaron H., Die with flow diffusing gate passage and method for impregnating same fiber rovings.
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Johnson, Aaron H.; Eastep, David W.; Regan, Timothy A., Impregnation section for impregnating fiber rovings.
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Eastep, David W.; Johnson, Aaron H.; Tibor, Timothy L., Impregnation section of die for impregnating fiber rovings.
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Regan, Timothy A., Impregnation section of die for impregnating fiber rovings.
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Eastep, David W.; Johnson, Aaron H.; Regan, Timothy A., Impregnation section with upstream surface for impregnating fiber rovings.
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Steinke, Tobias Heinz; Alteheld, Armin; Ulanova, Tatiana; Ranft, Meik; Peretolchin, Maxim; Baumgartl, Horst; Quadbeck-Seeger, Hans-Jürgen; Hahn, Klaus, Melamine-resin foams comprising hollow microbeads.
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Lo, Jason Sin Hin; Santos, Raul; Krueszewski, Jacob, Method and apparatus for fabrication of polymer-coated fibers.
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Johnson, Aaron H.; Eastep, David W.; Regan, Timothy A., Method for impregnating fiber rovings.
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Eastep, David W.; Johnson, Aaron H.; Regan, Timothy A., Methods for impregnating fiber rovings with polymer resin.
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Johnson, Aaron; Eastep, David; Tibor, Timothy, Subsea pipe section with reinforcement layer.
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Johnson, Aaron H.; Eastep, David W.; Regan, Timothy A., System and method for impregnating fiber rovings.
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A62B-1/08	.. 윈치 또는 풀리에 제동기구가 있는 것

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[미국특허] Process for the production of fiber-reinforced semi-finished articles made of thermoplastics of medium to high viscosity 원문보기