| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 纤维增强树脂材料的制造方法和制造装置 | CN201710153442.3 | 2017-03-15 | CN107199648A | 2017-09-26 | 小田哲也 |
| 本发明提供纤维增强树脂材料的制造方法和制造装置。所述制造方法包括:第1步骤,使热塑性树脂(R)熔融并与增强纤维(F)进行混炼,制作混炼材料;第2步骤,在密封空间(3)中收纳混炼材料,向密封空间(3)内供给超临界流体,使形成混炼材料的增强纤维(F)的内部含浸熔融了的热塑性树脂(R),制作包含超临界流体的增强纤维含浸材料;第3步骤,将增强纤维含浸材料取出至密封空间(3)外,置于减压气氛下,使超临界流体发泡,制造纤维增强树脂材料。 | ||||||
| 2 | 双层带式压机装置 | CN201510502367.8 | 2015-08-14 | CN105643956A | 2016-06-08 | 姜铉旻; 尹德禹 |
| 公开了双层带式压机装置,该双层带式压机装置包括一对前双层带,分别布置在连续地供给至此的纤维材料的上侧和下侧上,用以在相反的方向上旋转并在传送纤维材料的同时从上侧和下侧按压纤维材料,至少三个前传送辊,使前双层带移动,一对后双层带,分别布置在连续地供给至此的纤维材料的上侧和下侧的前双层带的下游侧上,用以在相反的方向上旋转并在传送纤维材料的同时从上侧和下侧按压纤维材料,至少三个后传送辊,使后双层带移动,及压力保持夹具,设置在前双层带与后双层带之间并施加预定压力至从前双层带传送至后双层带的纤维材料。 | ||||||
| 3 | 轻质且坚固的机动车辆结构件 | CN201480057308.8 | 2014-10-17 | CN105764678A | 2016-07-13 | 弗雷德里克·鲁索; 穆萨·哈尔法拉赫; 弗朗索瓦·范夫莱特伦; 布萨迪·阿布`; 瓦莱丽·马塞尔 |
| 本发明涉及一种轻质且坚固的机动车辆结构件及其制造方法,该结构件(10)包括:第一垫层(12A)和第二垫层(12B),其中每个垫层包括纤维和用来将纤维粘合在一起的树脂;以及分隔体(14),所述分隔体(14)嵌入第一垫层(12A)和第二垫层(12B)之间,所述第一垫层(12A)和第二垫层(12B)分别固定在所述分隔体(14)的相对的表面上,所述第一垫层(12A)和第二垫层(12B)中的至少一个垫层包括至少一个连续的纤维网状物(16),所述纤维网状物(16)包括由热固性树脂粘合在一起的多个平行纤维,每个纤维网状物(16)的至少部分纤维的长度大于20厘米,优选大于50厘米。 | ||||||
| 4 | 弹性层叠物及其制造方法 | CN200980103356.5 | 2009-01-30 | CN101925459B | 2014-06-25 | 詹姆斯·W·克里 |
| 一种用作抗撕裂尿布侧翼的弹性层叠物。该弹性层叠物包括弹性基底,该弹性基底与至少一层拉紧的纺粘型无纺网结合,该纺粘型无纺网包含含有至少约10重量%聚乙烯的热塑性长丝。然后,该层叠物以递增方式横向拉伸以提供大于100%的使用拉伸率以及大于0.35的强度比。在一个实施方案中,该弹性基底通过点结合或热熔粘合剂结合于所述拉紧的无纺网之间。本发明还公开了一种用于制造弹性层叠物的方法,其包括以下步骤:提供至少一层拉紧的纺粘型无纺网,该纺粘型无纺网包括含有至少约10重量%聚乙烯的热塑性长丝;提供弹性基底;将该弹性基底与该至少一层无纺网结合起来以提供弹性层叠物;以及以递增方式横向拉伸该层叠物以提供大于100%的使用拉伸率及大于0.35的强度比。 | ||||||
| 5 | 弹性层叠物及其制造方法 | CN200980103356.5 | 2009-01-30 | CN101925459A | 2010-12-22 | 詹姆斯·W·克里 |
| 一种用作抗撕裂尿布侧翼的弹性层叠物。该弹性层叠物包括弹性基底,该弹性基底与至少一层拉紧的纺粘型无纺网结合,该纺粘型无纺网包含含有至少约10重量%聚乙烯的热塑性丝。然后,该层叠物以递增方式横向拉伸以提供大于100%的使用拉伸率以及大于0.35的强度比。在一个实施方案中,该弹性基底通过点结合或热熔粘合剂结合于所述拉紧的无纺网之间。本发明还公开了一种用于制造弹性层叠物的方法,其包括以下步骤:提供至少一层拉紧的纺粘型无纺网,该纺粘型无纺网包括含有至少约10重量%聚乙烯的热塑性丝;提供弹性基底;将该弹性基底与该至少一层无纺网结合起来以提供弹性层叠物;以及以递增方式横向拉伸该层叠物以提供大于100%的使用拉伸率及大于0.35的强度比。 | ||||||
| 6 | 分散的玻璃短纤维与热塑纤维紧密混合组成的预制层制造方法及产品 | CN89103201.0 | 1989-05-09 | CN1024576C | 1994-05-18 | 格雷戈里·保罗·威克斯 |
| 一种制备由分散的玻璃短纤维和热塑纤维紧密混合组成的预制层的方法及所制的产品,其中用常规造纸设备将玻璃纤维和热塑性纤维的中性pH含水浆料制成毡片。优先的做法是先将可润湿的热塑性纤维分散在水中,然后再添加玻璃纤维。当将此自支承预制层转变为模塑的复合结构时,可产生一种基本不含孔隙的由分散的玻璃纤维嵌在热塑性树脂基质中所形成的结构。 | ||||||
| 7 | Reinforcing and composite yarn manufacturing apparatus comprising a thermoplastic organic material fibers | JP6289192 | 1992-03-19 | JP3432839B2 | 2003-08-04 | ロンカト ジョルダノ; ルビヌ ドミニク; ボワソンナ フィリップ; フェドロウスキ ロベール |
| 8 | Fabric sheet material | JP31053593 | 1993-12-10 | JPH06207343A | 1994-07-26 | RUUDOBUITSUHI YOTSUTO HAA SHIY; KURAASU EFU HAA MEERUDEINKUKER |
| PURPOSE: To provide a fabric sheet material for a composite material such that a strip can be cut out from a double pile fabric made of the fabric sheet material and the strip edge does not fray. CONSTITUTION: A fiber 10 constituting at least every other weft thread or warp thread extending in a direction S different from a direction A in which a strip is cut out contains a thermoplastic fiber having a melting point lower than one of other fiber in each upper and lower fabric so as to adhesively connect intersecting fibers each other near to a cut point when the strip is cut out. By such a thermal treatment as the thermoplastic fiber is at least partially melted before cutting out the strip, a melted portion of the thermoplastic fiber fixes a fiber in the cutting direction at the strip edge when the melted portion is solidified to prevent the fraying properties of the strip edge. | ||||||
| 9 | 繊維強化樹脂材の製造方法と製造装置 | JP2016054726 | 2016-03-18 | JP2017165048A | 2017-09-21 | 小田 哲也 |
| 【課題】強化繊維の繊維長を維持しながら熱可塑性樹脂内に強化繊維を均一に分散させることができ、もって優れた機械物性を有する繊維強化樹脂材を製造することのできる繊維強化樹脂材の製造方法と製造装置を提供する。 【解決手段】熱可塑性樹脂Rを溶融させ、強化繊維Fと混練して混練材を製作する第1のステップ、シール空間3の中に混練材を収容し、シール空間3内に超臨界流体を供給して、混練材を形成する強化繊維Fの内部に溶融した熱可塑性樹脂Rを含浸させ、超臨界流体を含む強化繊維含浸材を製作する第2のステップ、強化繊維含浸材をシール空間3の外に出して減圧雰囲気下に置き、超臨界流体を発泡させて繊維強化樹脂材を製造する第3のステップからなる繊維強化樹脂材の製造方法である。 【選択図】図1 |
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| 10 | Prepreg, its production method and laminated composite | JP51586194 | 1993-12-24 | JP3387100B2 | 2003-03-17 | 宏明 二宮; 浩樹 大背戸; 信之 小田切; 篤 尾崎; 肇 岸 |
| 11 | Method and apparatus for manufacturing a composite yarn | JP6173292 | 1992-03-18 | JP3187514B2 | 2001-07-11 | ロンカト ジョルダノ; ルビヌ ドミニク; ボワソンナ フィリップ; フェドロウスキ ロベール |
| 12 | Method and apparatus for manufacturing composite fiber | JP6173292 | 1992-03-18 | JPH0598533A | 1993-04-20 | JIYORUDANO RONKATO; ROBEERU FUEDOROUSUKI; FUIRITSUPU BOWASONNA; DOMINIKU RUBINU |
| PURPOSE: To obtain composite fibers by making good use of usual extrusion heads by introducing glass filaments into an area specified by organic filaments from the lateral side before combining the organic filaments with the glass filaments drawn in curved surface forms at a converging point. CONSTITUTION: The organic filaments 19 are drawn in a curved surface form a first apparatus to converge at a specified point. The glass filaments 12 are drawn from a second apparatus, made into at least one strand 16 and laterally introduced into the area defined by the organic filaments 19 before combining them with the organic filaments at the converging point to obtain the objective composite fibers. | ||||||
| 13 | Compound material of glass fiber, thermoplastic fiber and wet molding mixture | JP11231889 | 1989-05-02 | JPH01318045A | 1989-12-22 | GUREGORII POORU UIIKUSU |
| PURPOSE: To provide a self-sustaining pre-formed layer effective as a compound material, in which both of thermoplastic fiber and glass fiber are evenly distributed so as to have the excellent web strength and workability, by distributing the thermoplastic fiber and the glass fiber for treatment in water by specified method. CONSTITUTION: Plural thermoplastic fibers (for example, PP) having a staple length of 1mm-5cm and thickness of 0.5-20 denier and a constant quantity of wet cut glass strand formed of a bundle of the aligned multiple glass fibers having a length of 1-8cm and a diameter of 5-50μ, which are processed with the sheath agent (for example; silane compound) for coating and which are adhered to each other at a sufficient degree of integration for enabling the handling during the ordinary working, are added to the neutral pH solution, which practically does not include other component, an the bundle of the glass fibers is practically distributed so as to form the even filament-like slurry of the thermoplastic fiber and glass fiber, and this slurry is supplied to a layered screen, and water is eliminated from this layer for drying, and furthermore, this layer is heated to a temperature for thermally connecting the thermoplastic component fiber, and thereafter, it is cooled so as to obtain a pre-formed layer formed of separate glass staple filament, which is tightly combined with the thermoplastic fiber. COPYRIGHT: (C)1989,JPO | ||||||
| 14 | 복합사 제조 방법 및 장치 | KR1019920004402 | 1992-03-18 | KR100196962B1 | 1999-06-15 | 지오르다노롱꺄또; 로베르페도로브스키; 필립부와쏭나; 도미니끄루비누 |
| 본 발명은 연속적인 유리 실가닥과 열가소성 유기물 실가닥으로 형성된 복합사의 제조에 관한 것이다. 본 발명에 따른 공정은 주어진 지점에서 수렴하는 하나 이상의 시트 형태인 유기질 실가닥을 제1설비로부터 인발하는 공정과 유리 실가닥과 관련된 제2설비로부터 적어도 하나의 꼰실로 인발하는 공정을 포함하며 상기 꼰실은 수렴 지점에서 유기질 실가닥과 결합되기 전에 유기질 실가닥에 의해 안정된 구역 내부로 측면에서 도입된다. 이와 같이 얻은 복합사는 보강 부품을 제조하는데 사용된다. | ||||||
| 15 | STRENGTHENED POLYETHYLENE TUBULAR MEMBER | US15672422 | 2017-08-09 | US20190049057A1 | 2019-02-14 | Lawrence Cercone; Daniel J. Bomar, SR. |
| A strengthened polyethylene tubular member, where the polyethylene tubular member has an outer surface, a circumference, a wall thickness, an area to be strengthened, and the outer surface of the polyethylene tubular member contains polyethylene. The strengthened polyethylene tubular member contains a fabric layer wrapped around the circumference of the tubular member at least two full rotations and covering the area to be strengthened. The fabric layer contains a plurality of interwoven tape elements with a base layer of a strain oriented olefin polymer disposed between covering layers of a heat fusible olefin polymer. The tape elements within the fabric layer are bonded together and the tape elements adjacent the tubular member are bonded to the tubular member. | ||||||
| 16 | Segmented films with high strength seams | US14524159 | 2014-10-27 | US10081123B2 | 2018-09-25 | Wing-Chak Ng; Jose Augusto Vidal de Siqueira |
| Unitary films and laminates thereof are provided having at least first and second film segments which extend adjacent one another and are permanently joined together. The first and second film segments are joined at an interface, wherein at the interface a tip of the second segment overlaps the first segment in the cross-direction of the film. The film has a thickness “T” at the tip of the second segment, and the second segment has a thickness “t” at a distance T in the cross direction from the tip of the second segment. The ratio T/t is suitably greater than about 3. The unitary films and laminates thereof are well suited, for example, for use as outer covers in personal care articles. | ||||||
| 17 | Method for producing a backrest rear panel | US14382064 | 2013-03-01 | US09724858B2 | 2017-08-08 | David Ribaric; Bernd Meier; Vedat Nuyan; Annett Linemann; Carsten Höfer; Jerome Coulton; Peter Classen |
| In a method for producing a backrest rear panel from at least one organic sheet, a plurality of reinforcing beads and a frame-shaped bead, which circles the reinforcing beads, are formed in at least one organic sheet. In a molding tool, a rib structure is formed in the circling frame-shaped bead on the rear of the backrest rear panel in such a manner that a rib structure closes flush with the rear of the backrest rear panel, with the result that an even surface is formed on the rear of the backrest rear panel. A bonded connection is formed between the organic sheet and rib structure with the result that a one-piece component is formed. | ||||||
| 18 | METHOD OF MAKING A COMPOSITE PREFORM | US15302583 | 2015-04-06 | US20170028601A1 | 2017-02-02 | Ranvir Kumar Soni; Peter James Zuber |
| A method to form a part can comprise forming a pattern with a commingled yarn (10), wherein the commingled yarn comprises thermoplastic resin filaments (40) formed from a thermoplastic material and reinforcing filaments (20) formed from a reinforcing material, and wherein the reinforcing material has a glass transition temperature and/or a decomposition temperature that is higher than a glass transition temperature of the thermoplastic material; attaching the pattern to a carrier material (76) to form a preform (70); and using the preform to form a part. | ||||||
| 19 | Fabric for carbon fiber reinforced composite material and method of manufacturing the same | US14433737 | 2013-09-05 | US09534322B2 | 2017-01-03 | Takayoshi Tomiyori; Kosuke Mitamura |
| A method of manufacturing a fabric for a carbon fiber reinforced composite material includes binding a front texture woven with warp threads and weft threads which are carbon fibers and a back texture woven with warp threads and weft threads which are thermoplastic resin fibers at binding points to integrate the front texture and the back texture. | ||||||
| 20 | DOUBLE BELT PRESS APPARATUS | US14696915 | 2015-04-27 | US20160151940A1 | 2016-06-02 | Hyun Min Kang; Deok Woo Yun |
| Disclosed is a double belt press apparatus including one pair of front double belts arranged on an upper side and a lower side of a fiber material, respectively, being continuously supplied thereto to rotate in opposite directions and pressing the fiber material from the upper side and the lower side while conveying the fiber material, at least three front conveying rollers moving the front double belts, one pair of rear double belts arranged on a downstream side of the front double belts on an upper side and a lower side of the fiber material, respectively, being continuously supplied thereto to rotate in opposite directions and pressing the fiber material from the upper side and the lower side while conveying the fiber material, at least three rear conveying rollers moving the rear double belts, and a pressure maintaining jig provided between the front double belts and the double belts applying a predetermined pressure to the fiber material being conveyed from the front double belts to the rear double belts. | ||||||
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