| 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 | 增强型PVC塑料溶胶树脂的制备方法以及由其制备的产品 | CN200680031029.X | 2006-08-24 | CN101247944A | 2008-08-20 | 瓦尔特·W·库塞克 |
| 本发明提供一种用于形成具有预定外形的叠层复合材料的拉挤成型方法以及所得到的制品。所使用的装置包括用于供入长形补强物(1)的至少两个卷轴(2)。整理机(3)接收长形的补强物(1),并且将补强物布置为成层的关系,以形成层状的长形材料束(4)。供料部件用塑料溶胶润湿所述层状的长形材料束,以形成经润湿的长形材料束(8)。经润湿的长形材料束(8)被输送通过拉挤成型模具(9),在其中经润湿的层状材料束被成形为预定的外形。固化段(11)使经润湿的层状材料束(8)固化或转化为层状复合材料。特别优选的实施方案是包含这样的补强材料的挤出物,其中所述补强材料包含纤维增强型塑料溶胶。 | ||||||
| 2 | 具有PPS纤维、环氧树脂和/或呋喃树脂的复合材料 | CN201280004827.9 | 2012-02-04 | CN103370566A | 2013-10-23 | 迈克尔·罗尔曼; 迪特尔·罗斯贝格 |
| 本发明涉及一种包含增强纤维和一种由围绕所述纤维的基体材料组成的基体的复合材料,该基体材料包括一种树脂和该增强纤维聚苯硫醚。 | ||||||
| 3 | 树脂注射成型旋转部件 | CN201110137645.6 | 2011-05-25 | CN102280957A | 2011-12-14 | 石黑干久 |
| 本发明公开了一种树脂注射成型旋转部件(X),其具有插入轴件(Y)的插入孔(40),树脂注射成型旋转部件(X)与插在插入孔(40)中的轴件(Y)整体方式转动、或者相对于轴件(Y)转动,旋转部件(X)包括:中心旋转轴(Z);第一轴支撑部(41a)和第二轴支撑部(41b),其位于中心旋转轴(Z)方向的各端部,以与轴件(Y)相接触;以及,中间部(41c),其布置在第一轴支撑部(41a)与第二轴支撑部(41b)之间。自中心旋转轴(Z),沿径向向外方向之一,在外表面与内表面之间限定树脂注射成型旋转部件(X)的厚度,树脂注射成型旋转部件(X)的厚度构造成,使得中间部(41c)在与第一轴支撑部(41a)或第二轴支撑部(41b)相邻的位置处的厚度最小。 | ||||||
| 4 | Hollow structure body and vehicular component | US14779224 | 2015-03-13 | US09783244B2 | 2017-10-10 | Jianwei Shi; Hiroyuki Shimizu; Kouhei Oka |
| According to one aspect of the present invention, there is provided a hollow structure body having a hollow structure, in which a first shaped product constituted by a first fiber-reinforced resin material containing first reinforcing fibers and a first matrix resin and a second shaped product constituted by a second fiber-reinforced resin material containing second reinforcing fibers and a second matrix resin are combined, wherein in an arbitrary cross section in a direction perpendicular to an axial direction of the hollow structure, a ratio Sc/St between compressive strength Sc of a structure in the first shaped product and tensile strength St of a structure in the second shaped product satisfies formula (1): (σc/σt)*(Hc/Ht)<(Sc/St)<(σt/σc)*(Hc/Ht) formula (1). | ||||||
| 5 | Method of making reinforced PVC plastisol resin and products prepared therewith | US11210574 | 2005-08-24 | US20070006961A1 | 2007-01-11 | Walter Kusek |
| A pultrusion machine for forming a laminated composite with a predetermined profile and the product obtained. The apparatus comprises at least two spools for supplying elongated reinforcements. A collator receives the elongated reinforcements and arranges the reinforcements in layered relationship to form a layered elongated bundle. A supply member wets the layered elongated bundle with plastisol to form a wetted elongated bundle. The wetted elongated bundle is transported through a pultrusion die wherein the wetted layered bundle is molded into the predetermined profile. A converting apparatus cures, or converts, the wetted layered bundle into the layered composite. A particularly preferred embodiment is an extrusion comprising a reinforcing material wherein said reinforcing material comprises a fiber reinforced plastisol. | ||||||
| 6 | VERBUNDWERKSTOFF MIT PPS FASERN, EPOXYDHARZ UND/ODER FURANHARZ | EP12707224.7 | 2012-02-04 | EP2673538A1 | 2013-12-18 | ROHLMANN, Michael; ROSSBERG, Dieter |
| The invention relates to a composite material comprising reinforcing fibres and a matrix of matrix material surrounding said reinforcing fibres. The matrix material contains a resin and the reinforcing fibres contain polyphenylene sulfide. | ||||||
| 7 | Thermoplastic composition with low hydrocarbon uptake | US14467342 | 2014-08-25 | US09757892B2 | 2017-09-12 | Bin Zhang; Rong Luo; Xiaoyan Tu |
| Thermoplastic compositions are described that exhibit resistance to hydrocarbon absorption. Methods for forming the thermoplastic compositions are also described. Formation methods include combining a polyarylene sulfide with a first impact modifier and a second impact modifier such that the impact modifiers are dispersed throughout the polyarylene sulfide. A crosslinking agent can be combined with the other components of the composition following dispersal of the additives throughout the composition to dynamically crosslink at least one of the first and second impact modifiers. | ||||||
| 8 | Hollow Structure Body and Vehicular Component | US14779224 | 2015-03-13 | US20160052565A1 | 2016-02-25 | Jianwei Shi; Hiroyuki Shimizu; Kouhei Oka |
| According to one aspect of the present invention, there is provided a hollow structure body having a hollow structure, in which a first shaped product constituted by a first fiber-reinforced resin material containing first reinforcing fibers and a first matrix resin and a second shaped product constituted by a second fiber-reinforced resin material containing second reinforcing fibers and a second matrix resin are combined, wherein in an arbitrary cross section in a direction perpendicular to an axial direction of the hollow structure, a ratio Sc/St between compressive strength Sc of a structure in the first shaped product and tensile strength St of a structure in the second shaped product satisfies formula (1): (σc/σt)*(Hc/Ht)<(Sc/St)<(σt/σc)*(Hc/Ht) formula (1). | ||||||
| 9 | THERMOPLASTIC COMPOSITION WITH LOW HYDROCARBON UPTAKE | US14467342 | 2014-08-25 | US20150072093A1 | 2015-03-12 | Bin Zhang; Rong Luo; Xiaoyan Tu |
| Thermoplastic compositions are described that exhibit resistance to hydrocarbon absorption. Methods for forming the thermoplastic compositions are also described. Formation methods include combining a polyarylene sulfide with a first impact modifier and a second impact modifier such that the impact modifiers are dispersed throughout the polyarylene sulfide. A crosslinking agent can be combined with the other components of the composition following dispersal of the additives throughout the composition to dynamically crosslink at least one of the first and second impact modifiers. | ||||||
| 10 | COMPOSITE MATERIAL WITH PPS FIBRES, EPOXY RESIN AND/OR FURAN RESIN | US13983318 | 2012-02-04 | US20140295117A1 | 2014-10-02 | Michael Rohlmann; Dieter Rossberg |
| A composite material having reinforcing fibres and a matrix of matrix material surrounding the reinforcing fibres. The matrix material contains a resin and the reinforcing fibres contain polyphenylene sulfide. | ||||||
| 11 | ROD ASSEMBLY AND METHOD FOR FORMING ROD ASSEMBLY | US13914900 | 2013-06-11 | US20130330553A1 | 2013-12-12 | Aaron Johnson; David Eastep; Richard Stiehm |
| Methods for forming fiber reinforced polymer rod assemblies and fiber reinforced polymer rod assemblies are disclosed. In one embodiment, the method includes heating a portion of a first fiber reinforced polymer rod and heating a portion of a second fiber reinforced polymer rod. The method further includes intertwining the portions of the first fiber reinforced polymer rod and the second fiber reinforced polymer rod to form a rod connecting section. The method further includes aligning the first fiber reinforced polymer rod and the second fiber reinforced polymer rod along a linear axis. The method further includes cooling the portions of the first fiber reinforced polymer rod and the second fiber reinforced polymer rod. | ||||||
| 12 | RESIN INJECTION MOLDED ROTARY MEMBER | US13114583 | 2011-05-24 | US20110293448A1 | 2011-12-01 | Motohisa ISHIGURO |
| A resin injection molded rotary member having an insertion hole into which a shaft member is inserted, the resin injection molded rotary member rotating integrally with the shaft member inserted in the insertion hole or rotating relative to the shaft member, includes a central rotation axis, first and second shaft support portions positioned at respective end portions in a direction of the central rotation axis to be in contact with the shaft member, and an intermediate portion arranged between the first and second shaft support portions, the resin injection molded rotary member (X) including a thickness defined between outer and inner surfaces in one of radially outward directions from the central rotation axis, the thickness of the resin injection molded rotary member being configured so that a thickness of the intermediate portion is smallest at a position adjacent to the first shaft support portion or the second shaft support portion. | ||||||
| 13 | METHOD OF MAKING REINFORCED PVC PLASTISOL RESIN AND PRODUCTS PREPARED THEREWITH | US12205321 | 2008-09-05 | US20080318042A1 | 2008-12-25 | Walter W. Kusek |
| A pultrusion machine for forming a laminated composite with a predetermined profile and the product obtained. The apparatus comprises at least two spools for supplying elongated reinforcements. A collator receives the elongated reinforcements and arranges the reinforcements in layered relationship to form a layered elongated bundle. A supply member wets the layered elongated bundle with plastisol to form a wetted elongated bundle. The wetted elongated bundle is transported through a pultrusion die wherein the wetted layered bundle is molded into the predetermined profile. A converting apparatus cures, or converts, the wetted layered bundle into the layered composite. A particularly preferred embodiment is an extrusion comprising a reinforcing material wherein said reinforcing material comprises a fiber reinforced plastisol. | ||||||
| 14 | 炭化水素取り込みの低い熱可塑性組成物 | JP2016538994 | 2014-08-25 | JP2016529373A | 2016-09-23 | チャン,ビン; ルオ,ロン; チュー,シャオヤン |
| 炭化水素に対する耐吸収性を示す熱可塑性組成物について記述する。熱可塑性組成物の生成方法についても記述する。生成方法は、ポリアリーレンスルフィドを第1耐衝撃性改良剤および第2耐衝撃性改良剤と混合してポリアリーレンスルフィド全体に耐衝撃性改良剤を分配させることを含む。添加剤を本組成物全体に分配させてから、架橋剤を本組成物の他の成分と混合して第1および第2耐衝撃性改良剤の少なくとも1種を動的に架橋することができる。【選択図】図3 | ||||||
| 15 | Laser beam-transmitting colored thermoplastic resin composition and laser welding method | JP2003020859 | 2003-01-29 | JP2006152007A | 2006-06-15 | SUGAWARA SHUJI; HATASE YOSHITERU |
| <P>PROBLEM TO BE SOLVED: To provide a laser beam-transmitting colored thermoplastic resin composition of high laser beam transmittance which exhibits high transmittance in the laser beam wavelength region, causes no fading of color tones of a colored thermoplastic synthetic resin member in a heat treatment process prior to laser welding of the resin member and permits laser welding in a state where no substantial sublimation of dyes occurs. <P>SOLUTION: The laser beam-transmitting colored thermoplastic resin composition comprises an anthrapyridone acid dye represented by formula (1) [wherein R<SP>1</SP>is hydrogen or a benzoyl group; R<SP>2</SP>is hydrogen, an alkyl group, an aryl group, an alkoxy group or the like; R<SP>3</SP>is hydrogen, an alkyl group, an aryl group, a group represented by formula (2) [wherein X is O or NH; R<SP>6</SP>and R<SP>7</SP>are each hydrogen, an alkyl group, an aryl group, or the like; and M is hydrogen or an alkali metal], or the like; R<SP>4</SP>is hydrogen, an alkyl group, an alkoxy group or a hydroxy group; R<SP>5</SP>is hydrogen, an alkyl group, an alkoxy group or a hydroxy group; and M is hydrogen or an alkali metal]. <P>COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 16 | PPS繊維、エポキシ樹脂および/またはフラン樹脂を用いた複合材料 | JP2013552140 | 2012-02-04 | JP5951643B2 | 2016-07-13 | レールマン,ミヒャエル; ロスベルク,ディーター |
| 17 | Rotation member made of resin injection molding | JP2010122882 | 2010-05-28 | JP5418845B2 | 2014-02-19 | 幹久 石黒 |
| 18 | The method of manufacturing reinforced pvc plastisol resin and products prepared thereby | JP2008528249 | 2006-08-24 | JP2009505866A | 2009-02-12 | ウォルター ダブリュー. クセック |
| 所定の断面形を有する積層複合材料を形成するための引抜成形方法並びに得られる製品。 伸長強化材(1)を供給するための少なくとも2つのスプール(2)を含む装置が用いられる。 コレータ(3)は、伸長強化材(1)を受容し、層状関係で強化材を整列させて、層状伸長束(4)を形成する。 供給部材はプラスチゾルで層状伸長束を湿らせて、湿潤伸長束(8)を形成する。 湿潤伸長束(8)は、引抜成形ダイ(9)を通して運搬され、ここで、湿潤層状束は所定の断面形に成形される。 硬化部(11)は、湿潤層状束(8)を硬化するか、又は層状複合材料に転化する。 特に好ましい実施形態は強化材料を含む押出物であり、当該強化材料は繊維強化プラスチゾルを含む。
【選択図】図1 |
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| 19 | Resin injection molded rotary member | EP11167202.8 | 2011-05-24 | EP2390509A3 | 2013-07-17 | Ishiguro, Motohisa |
A resin injection molded rotary member (X) having an insertion hole (40) into which a shaft member (Y) is inserted, the resin injection molded rotary member (X) rotating integrally with the shaft member (Y) inserted in the insertion hole (40) or rotating relative to the shaft member (Y), includes a central rotation axis (Z), first and second shaft support portions (41 a, 41 b) positioned at respective end portions in a direction of the central rotation axis (Z) to be in contact with the shaft member (Y), and an intermediate portion (41 c) arranged between the first and second shaft support portions (41 a, 41 b), the resin injection molded rotary member (X) including a thickness defined between outer and inner surfaces in one of radially outward directions from the central rotation axis (Z), the thickness of the resin injection molded rotary member (X) being configured so that a thickness of the intermediate portion (41 c) is smallest at a position adjacent to the first shaft support portion (41 a) or the second shaft support portion (41 b).
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| 20 | Resin injection molded rotary member | EP11167202.8 | 2011-05-24 | EP2390509A2 | 2011-11-30 | Ishiguro, Motohisa |
A resin injection molded rotary member (X) having an insertion hole (40) into which a shaft member (Y) is inserted, the resin injection molded rotary member (X) rotating integrally with the shaft member (Y) inserted in the insertion hole (40) or rotating relative to the shaft member (Y), includes a central rotation axis (Z), first and second shaft support portions (41 a, 41 b) positioned at respective end portions in a direction of the central rotation axis (Z) to be in contact with the shaft member (Y), and an intermediate portion (41 c) arranged between the first and second shaft support portions (41 a, 41 b), the resin injection molded rotary member (X) including a thickness defined between outer and inner surfaces in one of radially outward directions from the central rotation axis (Z), the thickness of the resin injection molded rotary member (X) being configured so that a thickness of the intermediate portion (41 c) is smallest at a position adjacent to the first shaft support portion (41 a) or the second shaft support portion (41 b).
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