公开(公告)号：US20140275344A1

公开(公告)日：2014-09-18

申请号：US14349469

申请日：2012-10-01

Applicant: KYOCERA CORPORATION ,  FUJI CHEMICAL COMPANY, LIMITED

Inventor： Satoshi Kawanaka ,  Fumio Uchida ,  Yuji Nakano ,  Yoshiyuki Kawasumi

IPC: C08K3/36 ,  C08K5/1565

CPC classification number: C08K3/36 ,  C08G59/4215 ,  C08K5/1565 ,  C08K2201/003 ,  C08L63/00 ,  G02B1/04

Abstract: An epoxy resin composition is provided which includes a polycrystalline structure comprised of a plurality of monocrystalline structures. The plurality of monocrystalline structures are respectively comprised of a plurality of silicon oxide colloidal particles regularly aligned in epoxy resin. The plurality of silicon oxide colloidal particles are not contacted with each other. The mean distance between the silicon oxide colloidal particles adjacent to each other is less than 330 nm. The mean particle size of the plurality of silicon oxide colloidal particles is less than 290 nm. The concentration of the plurality of silicon oxide colloidal particles is 10-50% by mass. A relative permittivity of 4 or more is ensured. A method for producing the epoxy resin composition is provided. Building materials, ornaments and optical materials, each using the epoxy resin composition, are also provided.

Abstract translation: 提供一种环氧树脂组合物，其包括由多个单晶结构组成的多晶结构。 多个单晶结构分别由在环氧树脂中规则排列的多个氧化硅胶体颗粒构成。 多个氧化硅胶体粒子彼此不接触。 相邻的氧化硅胶粒之间的平均距离小于330nm。 多个氧化硅胶体粒子的平均粒径小于290nm。 多个氧化硅胶体粒子的浓度为10〜50质量％。 确保4以上的相对介电常数。 提供一种环氧树脂组合物的制造方法。 还提供了各自使用环氧树脂组合物的建筑材料，饰品和光学材料。

公开(公告)号：US20140249261A1

公开(公告)日：2014-09-04

申请号：US13783295

申请日：2013-03-02

Applicant: ANF TECHNOLOGY LIMITED

Inventor： Ilya Grodnensky

IPC: C08K3/22 ,  C08K3/08

CPC classification number: C08K3/22 ,  C01F7/42 ,  C01P2004/03 ,  C01P2004/04 ,  C01P2004/16 ,  C08J5/005 ,  C08J5/044 ,  C08K3/08 ,  C08K7/08 ,  C08K2003/2227 ,  C08K2201/003 ,  C08K2201/004 ,  C08K2201/005 ,  C08K2201/011 ,  C30B25/005 ,  C30B29/20 ,  C30B29/62

Abstract: A method for producing a nanocomposite material reinforced by alumina Al2O3 nanofibers involving synthesizing the alumina Al2O3 nanofibers directly from a melt comprising molten metallic aluminum, the method comprising a controlled liquid phase oxidation of the melt, wherein the synthesized alumina Al2O3 nanofibers have a diameter between 3 and 45 nm and length of more than 100 nm and combining the synthesized alumina Al2O3 nanofibers with a polymer matrix to produce the nanocomposite material reinforced by the alumina Al2O3 nanofibers. The alumina Al2O3 nanofibers may be monocrystalline alumina Al2O3 nanofibers. The alumina Al2O3 nanofibers and the molecules of the polymer may be aligned.

Abstract translation: 一种由氧化铝Al2O3纳米纤维增强的纳米复合材料的制造方法，其包括直接由熔融金属铝的熔融物合成氧化铝Al 2 O 3纳米纤维，所述熔融金属铝的熔融控制液相氧化，其中合成的氧化铝Al 2 O 3纳米纤维的直径为3 和45nm，长度大于100nm，并将合成的氧化铝Al2O3纳米纤维与聚合物基体结合，生产由氧化铝Al2O3纳米纤维增强的纳米复合材料。 氧化铝Al2O3纳米纤维可以是单晶氧化铝Al2O3纳米纤维。 氧化铝Al2O3纳米纤维和聚合物的分子可以对齐。

公开(公告)号：US08802207B2

公开(公告)日：2014-08-12

申请号：US13951966

申请日：2013-07-26

Applicant: Graham Packaging Company, L.P.

Inventor： Murali K. Akkapeddi

IPC: B65D43/00 ,  B29D22/00 ,  B29D23/00 ,  B32B1/08 ,  B32B15/08 ,  C08F2/44 ,  C08K3/10 ,  C08K3/38 ,  C08K3/00 ,  C08G18/08 ,  B65D81/26

CPC classification number: B65D81/266 ,  B29D22/00 ,  B29D23/00 ,  B32B1/08 ,  B32B15/08 ,  B65D43/00 ,  C08F2/44 ,  C08G18/08 ,  C08G63/826 ,  C08K3/00 ,  C08K3/08 ,  C08K3/10 ,  C08K3/38 ,  C08K2201/003 ,  C08K2201/011 ,  Y10T428/1352 ,  Y10T428/1355 ,  C08L67/02

Abstract: A method of making a polymer composition comprising dispersed nanoparticles of an oxygen scavenging catalyst includes polymerizing one or more monomers or pre-polymers in the presence of a platinum group metal catalyst or precursor to obtain a polymer composition having dispersed nanoparticles of the platinum group metal. The oxygen scavenging catalyst is added during the polymerization as a solution of the platinum group metal or a compound thereof and a polyhydric alcohol (e.g., glycols). The food or beverage containers made from such polymer compositions exhibit high clarity and high oxygen scavenging properties.

Abstract translation: 制备包含除氧催化剂的分散纳米颗粒的聚合物组合物的方法包括在铂族金属催化剂或前体存在下聚合一种或多种单体或预聚物以获得具有铂族金属分散的纳米颗粒的聚合物组合物。 在聚合过程中加入氧清除催化剂作为铂族金属或其化合物和多元醇（例如二醇）的溶液。 由这种聚合物组合物制成的食品或饮料容器具有高透明度和高氧清除性能。

公开(公告)号：US20140154454A1

公开(公告)日：2014-06-05

申请号：US14094787

申请日：2013-12-02

Applicant: Shinshu University ,  Schlumberger Technology Corporation

Inventor： Hiroyuki Ueki ,  Toru Noguchi ,  Masaei Ito

IPC: C08K3/04 ,  F16J9/26

CPC classification number: C08K3/04 ,  C08K3/041 ,  C08K2201/003 ,  C08K2201/011 ,  C08K2201/014 ,  C09K3/1009 ,  C09K2200/0282 ,  F16J15/065 ,  F16J15/102 ,  Y10S977/762 ,  Y10S977/773 ,  Y10T428/215 ,  C08L27/12

Abstract: The heat resistant seal member according to one aspect of the present disclosure contains, for 100 parts by weight of a ternary fluoroelastomer, 5 to 15 parts by weight of first carbon nanofibers, 10 to 15 parts by weight of second carbon nanofibers, and 0 to 20 parts by weight of carbon black. The total amount of the first carbon nanofibers and the second carbon nanofibers are 15 to 30 parts by weight, and the total amount of the first carbon nanofibers, the second nanofibers, and the carbon black is 20 to 45 parts by weight. The heat resistant seal member can achieve a compression set of not more than 40% after 70 hours and 25% compressibility in a hydrogen sulfide gas atmosphere at 200° C.

Abstract translation: 根据本公开的一个方面的耐热密封构件包含对于100重量份的三元含氟弹性体，5至15重量份的第一碳纳米纤维，10至15重量份的第二碳纳米纤维，以及0至 20重量份炭黑。 第一碳纳米纤维和第二碳纳米纤维的总量为15〜30重量份，第一碳纳米纤维，第二纳米纤维和炭黑的总量为20〜45重量份。 耐热密封件可在70℃下达到不大于40％的压缩永久变形和在200℃的硫化氢气体气氛中达到25％的压缩性。

公开(公告)号：US20140087614A1

公开(公告)日：2014-03-27

申请号：US14115306

申请日：2012-04-27

Applicant: PANASONIC CORPRORATION

Inventor： Takashi Matsuda ,  Mitsuyoshi Nishino ,  Kiyotaka Komori

IPC: C08K3/00 ,  C08L63/00 ,  H05K1/03

CPC classification number: C08K3/013 ,  B32B15/092 ,  B32B2264/102 ,  B32B2311/12 ,  B32B2363/00 ,  B32B2457/08 ,  C08J5/24 ,  C08J2363/00 ,  C08K3/22 ,  C08K3/26 ,  C08K2003/222 ,  C08K2003/2224 ,  C08K2003/2227 ,  C08K2003/265 ,  C08K2201/003 ,  C08K2201/005 ,  C08K2201/014 ,  C08L63/00 ,  H05K1/0366 ,  H05K1/0373 ,  H05K2201/0209 ,  H05K2201/0266 ,  Y10T442/20 ,  Y10T442/3431 ,  Y10T442/3472

Abstract: Provided is a thermosetting resin composition that contains 40 to 80 parts by volume of an inorganic filler with respect to 100 parts by volume of thermosetting resin solids and the inorganic filler. The inorganic filler contains (A) at least one type of particles selected from among gibbsite-type aluminum hydroxide particles and magnesium hydroxide particles having an average particle size (D50) of 1 to 15 μm; (B) aluminum oxide particles having an average particle size (D50) of 1.5 μm or less; and (C) a molybdenum compound, and the blending ratios (by volume) of the component (A), the component (B) and the component (C) with respect to 100% as the total amount of inorganic filler are component (A): 30 to 70%, component (B): 1 to 40%, and component (C): 1 to 10%.

Abstract translation: 本发明提供一种热固性树脂组合物，相对于100体积份的热固性树脂固体和无机填料，含有40〜80体积份的无机填料。 无机填料含有（A）选自三水铝矿型氢氧化铝粒子和平均粒径（D50）为1〜15μm的氢氧化镁粒子中的至少一种粒子; （B）平均粒径（D50）为1.5μm以下的氧化铝粒子; 和（C）钼化合物，组分（A），组分（B）和组分（C）相对于无机填料的总量的100％的共混比（体积比）为组分（A ）：30〜70％，（B）成分：1〜40％，成分（C）：1〜10％。

公开(公告)号：US20140080962A1

公开(公告)日：2014-03-20

申请号：US14115580

申请日：2012-05-03

Applicant: Jay Clarke Hanan

Inventor： Jay Clarke Hanan

IPC: C08K3/04 ,  B29C45/00

CPC classification number: C08K3/042 ,  B29C45/0001 ,  B29C45/0013 ,  B29K2067/003 ,  B29K2507/04 ,  B82Y30/00 ,  C01B31/0469 ,  C01B2204/32 ,  C08J3/22 ,  C08J2367/02 ,  C08K3/04 ,  C08K9/08 ,  C08K2201/003 ,  Y10S977/734 ,  Y10S977/776

Abstract: A nanocomposite material comprises polyethylene terephthalate (PET) as a base polymer and a nanoparticle that increases the strength of the base polymer.

Abstract translation: 纳米复合材料包括作为基础聚合物的聚对苯二甲酸乙二醇酯（PET）和增加基础聚合物强度的纳米颗粒。

公开(公告)号：US20130333931A1

公开(公告)日：2013-12-19

申请号：US14002552

申请日：2012-02-22

Applicant: Yoshihide Sekito

Inventor： Yoshihide Sekito

IPC: H05K1/02

CPC classification number: H05K1/0271 ,  C08G18/0823 ,  C08G18/6659 ,  C08G18/672 ,  C08G18/758 ,  C08J5/18 ,  C08K7/16 ,  C08K2003/026 ,  C08K2003/0812 ,  C08K2201/003 ,  H05K3/287 ,  H05K2201/0209 ,  H05K2201/0212 ,  H05K2201/0215 ,  H05K2201/0266 ,  C08G18/44

Abstract: The present invention provides an insulating film including: a (A) binder polymer; (B) spherical organic beads; and (C) fine particles containing at least one element selected from the group consisting of phosphorus, aluminum, and magnesium, both the (B) spherical organic bead and the (C) fine particles being dispersed in a predetermined state in the insulating film.

Abstract translation: 本发明提供一种绝缘膜，包括：（A）粘合剂聚合物; （B）球形有机珠粒; 和（C）含有选自磷，铝和镁中的至少一种元素的细颗粒，（B）球形有机珠和（C）微粒均以预定状态分散在绝缘膜中。

公开(公告)号：US20130295329A1

公开(公告)日：2013-11-07

申请号：US13977839

申请日：2012-02-23

Applicant: Noboru Araki

Inventor： Noboru Araki

IPC: C09J7/00

CPC classification number: C09J7/00 ,  C08F220/06 ,  C08F220/18 ,  C08F222/1006 ,  C08F2220/1833 ,  C08K3/013 ,  C08K5/0025 ,  C08K2201/003 ,  C09J4/00 ,  C09J7/10 ,  C09J2201/134 ,  C09J2201/622 ,  C09J2433/00 ,  Y10T428/24372 ,  C08F2220/1858 ,  C08F2222/102

Abstract: Disclosed is a double-sided adhesive tape that has a difference in adhesion between the front and rear sides thereof and can be produced to have a reduced thickness by a simple method. The double-sided adhesive tape is a sheet-shaped cured product of an adhesive composition containing a resin composition and an inorganic filler. The resin composition contains (A) an acrylate-based monomer, (B) a monomer copolymerizable with (A), (C) a photopolymerization initiator, and (D) a photo-crosslinking agent. The inorganic filler has an average particle diameter of 30 μm or less and is localized on one side of the tape. The surface roughness (center line average roughness Ra) of the tape surface on the side on which the inorganic filler is localized is 0.01 to 0.50 μm.

Abstract translation: 公开了一种双面胶带，其在其前侧和后侧之间的粘合力差异，并且可以通过简单的方法制造成具有减小的厚度。 双面胶带是包含树脂组合物和无机填料的粘合剂组合物的片状固化产物。 树脂组合物含有（A）丙烯酸酯类单体，（B）可与（A）共聚的单体，（C）光聚合引发剂，（D）光交联剂。 无机填料的平均粒径为30μm以下，位于带的一侧。 无机填料一侧的带表面的表面粗糙度（中心线平均粗糙度Ra）为0.01〜0.50μm。

公开(公告)号：US20130256011A1

公开(公告)日：2013-10-03

申请号：US13906518

申请日：2013-05-31

Applicant: Cheil Industries Inc.

Inventor： Young Kyu CHANG ,  Seung Yong BAE ,  Young Sil LEE ,  Young Hee LEE ,  Hong Zhang GENG

IPC: H05K1/09

CPC classification number: H05K1/09 ,  B82Y10/00 ,  C08K3/041 ,  C08K2201/003 ,  C09D5/24 ,  C09D7/70 ,  C09D11/30 ,  C09D11/52 ,  C09D127/18 ,  H01L27/3244 ,  H01L29/0665 ,  H01L29/0673 ,  C09D127/12

Abstract: Disclosed herein is a method of fabricating a transparent conductive film, including preparing a carbon nanotube composite composition by blending a carbon nanotube in a solvent; coating the carbon nanotube composite composition on a base substrate to form a carbon nanotube composite film, and acid-treating the carbon nanotube composite film by dipping the carbon nanotube composite film in an acid solution, followed by washing the carbon nanotube composite film with distilled water and drying the washed carbon nanotube composite film to form a transparent electrode on the base substrate. The transparent conductive film can have excellent conductivity, transparency and bending properties following acid treatment, so that it can be used in touch screens and transparent electrodes of foldable flat panel displays. Further, the carbon nanotube composite conductive film can have improved conductivity while maintaining transparency after acid treatment.

Abstract translation: 本文公开了一种制造透明导电膜的方法，包括通过在溶剂中混合碳纳米管制备碳纳米管复合组合物; 将碳纳米管复合组合物涂布在基底基板上以形成碳纳米管复合膜，并通过将碳纳米管复合膜浸入酸溶液中对碳纳米管复合膜进行酸处理，然后用蒸馏水洗涤碳纳米管复合膜 并干燥洗涤的碳纳米管复合膜，以在基底基板上形成透明电极。 透明导电膜可以在酸处理后具有优异的导电性，透明性和弯曲性，从而可以用于可折叠平板显示器的触摸屏和透明电极。 此外，碳纳米管复合导电膜可以在酸处理后保持透明性而具有改善的导电性。

公开(公告)号：US20130171396A1

公开(公告)日：2013-07-04

申请号：US13823120

申请日：2011-09-29

Applicant: Robert Ray Burch ,  Jesus G Moralez

Inventor： Robert Ray Burch ,  Jesus G Moralez

IPC: C08K3/00 ,  C08L79/08

CPC classification number: B29D22/00 ,  B29D23/00 ,  B32B1/08 ,  B32B27/10 ,  C08G73/1042 ,  C08G73/1067 ,  C08K3/04 ,  C08K3/22 ,  C08K7/08 ,  C08K2003/2241 ,  C08K2201/003 ,  C08K2201/004 ,  Y10T428/1352 ,  Y10T428/139 ,  Y10T428/21 ,  Y10T428/24479 ,  C08L79/08

Abstract: Polyimide resin compositions that contain an aromatic polyimide, graphite, and acicular titanium dioxide are found to exhibit high thermal oxidative stability. Such compositions are especially useful in molded articles that are exposed to high temperatures, such as bushings, bearings, and seal rings that are used in aerospace, transportation, and materials handling applications.

Abstract translation: 发现含有芳族聚酰亚胺，石墨和针状二氧化钛的聚酰亚胺树脂组合物表现出高的热氧化稳定性。 这种组合物特别适用于暴露于高温的模塑制品，例如用于航空航天，运输和材料处理应用的衬套，轴承和密封环。