公开(公告)号：US5759678A

公开(公告)日：1998-06-02

申请号：US725652

申请日：1996-10-01

Applicant: Toshio Fujii ,  Tatsuya Mochizuki

Inventor： Toshio Fujii ,  Tatsuya Mochizuki

IPC: B01D71/26 ,  C08J9/26 ,  C08J9/28 ,  H01M2/16 ,  B29C47/78 ,  B01D39/00 ,  B29C55/04

CPC classification number: C08J9/26 ,  B01D71/26 ,  B29C47/0014 ,  B29C47/822 ,  B29C47/862 ,  C08J9/28 ,  H01M2/1653 ,  C08J2201/0462 ,  C08J2201/0543 ,  C08J2201/0546 ,  C08J2323/02 ,  C08J2323/06 ,  Y10T428/249978 ,  Y10T428/261 ,  Y10T428/269

Abstract: The present invention relates to a high-strength porous film or sheet consisting essentially of a high-molecular-weight polyethylene resin having a viscosity-average molecular weight of not less than 300,000, wherein the said film has a thickness of 5 to 50 .mu.m, an air permeability of 200 to 1,000 sec/100 cc, a porosity of 10 to 50% and a pin puncture strength of not less than 600 gf/25 .mu.m, and a process for producing the said film.

Abstract translation: 本发明涉及一种基本上由粘均分子量不小于300,000的高分子量聚乙烯树脂组成的高强度多孔膜或片，其中所述膜的厚度为5-50μm ，透气度为200〜1000秒/ 100cc，孔隙率为10〜50％，针穿刺强度为600gf /25μm以上，以及所述膜的制造方法。

公开(公告)号：US11936065B2

公开(公告)日：2024-03-19

申请号：US17056919

申请日：2019-07-12

Applicant: LG CHEM, LTD.

Inventor： Su-Jin Park ,  Sang-Joon Lee

IPC: H01M50/417 ,  C08J9/26 ,  C08J9/36 ,  H01M10/0525 ,  H01M50/403 ,  H01M50/443 ,  H01M50/451 ,  H01M50/46 ,  H01M50/489 ,  H01M50/491

CPC classification number: H01M50/417 ,  C08J9/26 ,  C08J9/365 ,  H01M10/0525 ,  H01M50/403 ,  H01M50/443 ,  H01M50/451 ,  H01M50/46 ,  H01M50/489 ,  H01M50/491 ,  C08J2201/0462 ,  C08J2323/06 ,  C08J2401/28

Abstract: A separator for an electrochemical device including a porous substrate made of a porous polymer material. The separator substrate has a small thickness, excellent resistance characteristics, ion conductivity, and high mechanical strength. When the separator is applied to a battery, it is possible to improve the output characteristics of the battery.

公开(公告)号：US20160013464A1

公开(公告)日：2016-01-14

申请号：US14771720

申请日：2014-10-31

Applicant: LG CHEM, LTD.

Inventor： Hyung-Kyun YU ,  Seok-Koo KIM ,  Bo-Kyung RYU ,  Jong-Hun KIM

IPC: H01M2/16 ,  H01M2/14

CPC classification number: H01M2/1686 ,  C08J9/26 ,  C08J2201/0462 ,  C08J2205/044 ,  C08J2371/08 ,  C08J2379/08 ,  C08J2381/04 ,  C08J2381/06 ,  H01M2/14 ,  H01M2/145 ,  H01M2/16 ,  H01M2/1653 ,  H01M2/18 ,  H01M10/052

Abstract: The present disclosure provides a porous separator substrate with an inverse opal structure obtained by using an engineering plastic resin with high heat-resistance, and a manufacturing method thereof. In the method, a non-crosslinked polymer resin is used to form an opal structure and a crosslinked polymer resin is penetrated into the opal structure and an organic solvent is used to remove the polymer particles being used to form the opal structure, thereby manufacturing a porous substrate with an inverse opal structure. According to the present disclosure, a separator having good porosity and air permeability can be provided without the problems of heat-resistance decrease, pore closing and thickness decrease.

Abstract translation: 本公开内容提供了一种具有通过使用具有高耐热性的工程塑料树脂获得的反蛋白石结构的多孔隔板基板及其制造方法。 在该方法中，使用非交联聚合物树脂形成蛋白石结构，并且交联聚合物树脂渗入蛋白石结构中，并使用有机溶剂除去用于形成蛋白石结构的聚合物颗粒，从而制造 具有反蛋白石结构的多孔基材。 根据本公开，可以提供具有良好的孔隙率和透气性的隔膜，而不存在耐热性降低，孔闭合和厚度减小的问题。

公开(公告)号：US20150151470A1

公开(公告)日：2015-06-04

申请号：US14402796

申请日：2013-05-24

Applicant: NATIONAL INSTITUTE OF ADVANCED INDUSTRIAL SCIENCE AND TECHNOLOGY

Inventor： Kazuma Kurihara

IPC: B29C45/17 ,  C08J9/26

CPC classification number: B29C45/1701 ,  B29C45/0001 ,  B29C45/0053 ,  B29C2045/0058 ,  B29C2045/1702 ,  B29L2007/001 ,  C08J9/26 ,  C08J2201/0422 ,  C08J2201/0462 ,  C08J2323/06 ,  C08J2345/00 ,  C08J2357/00 ,  C08J2469/00

Abstract: A resin product wherein a resin B has pillar structures or lamellar structures inside a resin A is molded by kneading the resin A and the resin B that serves as a base material in an injection molding machine while heating both of the resins to at least a temperature at which both of the resins are melted at least partially. The resin product is soaked in a solution having higher erosion capability with respect to the resin A than the resin B, thereby dissolving the resin B and forming an uneven structure on the surface. As a result, an uneven structure having various shapes, densities or depths which are precisely adjustable can be formed at low cost. And provided are a resin structure and a production method thereof that can maintain wettability control or optical property control of the molded article over a long period of time.

Abstract translation: 树脂A中的树脂B具有支柱结构或层状结构的树脂制品通过在注塑机中捏合树脂A和用作基材的树脂B来模塑，同时将两种树脂加热至至少温度 其中两种树脂至少部分地熔融。 将树脂产品浸泡在树脂A中比树脂B具有较高腐蚀能力的溶液中，从而溶解树脂B并在表面上形成不均匀的结构。 结果，可以以低成本形成具有精确可调节的各种形状，密度或深度的不均匀结构。 并且提供了能够长时间保持模制品的润湿性控制或光学性质控制的树脂结构及其制造方法。

公开(公告)号：US20150075027A1

公开(公告)日：2015-03-19

申请号：US14383946

申请日：2013-03-12

Applicant: Mitsubishi Rayon Co., Ltd.

Inventor： Osamu Maehara ,  Masaki Kurashina ,  Toshinori Sumi

IPC: F26B3/00 ,  B01D67/00

CPC classification number: F26B3/00 ,  B01D67/0016 ,  B01D67/0095 ,  B01D69/087 ,  B01D2323/00 ,  B01D2323/42 ,  C08J9/26 ,  C08J2201/0462 ,  C08J2327/16 ,  F26B13/00 ,  F26B21/10

Abstract: The present invention of a method for producing a porous membrane including a solidification step of forming a porous membrane, and a heating step of drying the porous membrane, wherein the heating step includes at least a water reduction step of the porous membrane, the water reduction step uses a heating medium, and the temperature of the heating medium (Tgh) satisfies a relation of tgh>Td, when Td represents the heat deformation temperature of a membrane material. The present invention of a drying device of a porous membrane including a water reduction unit, and a final drying unit, wherein the drying device includes a membrane-surface-temperature measurement means for measuring the surface temperature of the porous membrane and the final drying unit, and a control means for controlling the temperature and/or the flow speed of the heating medium of the water reduction unit.

Abstract translation: 一种多孔膜的制造方法的制造方法，其特征在于，具有形成多孔膜的固化工序的多孔膜的制造方法以及干燥多孔膜的加热工序，其中，所述加热工序至少包括多孔膜的减水工序， 当Td表示膜材的热变形温度时，使用加热介质，加热介质（Tgh）的温度满足tgh> Td的关系。 一种包括减水单元和最终干燥单元的多孔膜的干燥装置的本发明，其中干燥装置包括用于测量多孔膜的表面温度的膜表面温度测量装置和最终干燥单元 以及用于控制减水单元的加热介质的温度和/或流速的控制装置。

公开(公告)号：US20140335396A1

公开(公告)日：2014-11-13

申请号：US14346980

申请日：2012-09-26

Applicant: ASAHI KASEI E-MATERIALS CORPORATION

Inventor： Takeshi Onizawa ,  Hisashi Takeda ,  Keitaro Ameyama

IPC: H01M2/16 ,  H01M2/14

CPC classification number: H01M2/1686 ,  C08J7/047 ,  C08J7/065 ,  C08J9/26 ,  C08J9/283 ,  C08J2201/0462 ,  C08J2323/02 ,  C08J2323/06 ,  C08J2483/04 ,  H01M2/145 ,  H01M2/1653

Abstract: A microporous membrane having a polyolefin microporous membrane and a surfactant adhering to the polyolefin microporous membrane, wherein the surfactant includes a surfactant (A) having a solubility in 100 g of water of 5 g or more and a surfactant (B) having a solubility in 100 g of water of less than 0.1 g, the surfactants (A) and (B) are adhered in an amount of 1 to 40% by mass in total based on 100% by mass of the polyolefin microporous membrane, and the polyolefin microporous membrane has a tortuosity factor of more than 2.0.

Abstract translation: 1.一种微孔膜，其具有聚烯烃微多孔膜和附着在所述聚烯烃微多孔膜上的表面活性剂，其中，所述表面活性剂包含在100g水中溶解度为5g以上的表面活性剂（A）和溶解度为 相对于100质量％的聚烯烃微多孔膜，100g小于0.1g的水，表面活性剂（A）和（B）的总量为1〜40质量％，聚烯烃微多孔膜 曲折因子超过2.0。

公开(公告)号：US08877822B2

公开(公告)日：2014-11-04

申请号：US13246568

申请日：2011-09-27

Applicant: Futian Liu ,  Nicholas J. Manesis ,  Xiaojie Yu ,  Athene Wan Chie Chan

Inventor： Futian Liu ,  Nicholas J. Manesis ,  Xiaojie Yu ,  Athene Wan Chie Chan

IPC: C08J9/14 ,  B05D3/00 ,  A61L27/56 ,  C08J9/26

CPC classification number: C08J9/26 ,  A61L27/56 ,  A61L31/06 ,  A61L31/146 ,  A61L2400/08 ,  B01D39/1692 ,  B01D2239/1208 ,  B01D2239/1216 ,  B05D1/38 ,  B05D3/007 ,  B05D5/00 ,  C08J2201/04 ,  C08J2201/042 ,  C08J2201/0422 ,  C08J2201/0462 ,  C08J2201/0464 ,  C08J2201/05 ,  C08J2205/05 ,  C08J2207/10 ,  C08J2207/12 ,  C08J2325/10 ,  C08J2353/02 ,  C08J2375/04 ,  C08J2383/04 ,  C09D167/04 ,  C09D171/02

Abstract: Provided are porogen compositions and methods of using such porogen compositions in the manufacture of porous materials, for example, porous silicone elastomers. The porogens generally include comprising a core material and shell material different from the core material. The porogens can be used to form a scaffold for making a resulting porous elastomer when the scaffold is removed.

Abstract translation: 提供的是致孔剂组合物和在制造多孔材料例如多孔硅橡胶中使用这种致孔剂组合物的方法。 致孔剂通常包括芯材和与芯材不同的壳材料。 当去除支架时，致孔剂可用于形成用于制备所得多孔弹性体的支架。

公开(公告)号：US20140193875A1

公开(公告)日：2014-07-10

申请号：US14204324

申请日：2014-03-11

Applicant: 3M INNOVATIVE PROPERTIES COMPANY

Inventor： Peter D. Wickert ,  Simon K. Shannon ,  Kannan Seshadri ,  Jerald K. Rasmussen ,  James I. Hembre ,  Robert T. Fitzsimons, JR.

IPC: C08F228/02 ,  C08F224/00 ,  C08F226/06

CPC classification number: C08F228/02 ,  B01D15/00 ,  B01D15/08 ,  B01J20/261 ,  B01J20/267 ,  B01J20/28092 ,  B01J20/285 ,  C08F224/00 ,  C08F226/06 ,  C08J9/26 ,  C08J2201/0462 ,  C08J2333/04 ,  C08J2333/24

Abstract: Porous polymeric resins, reaction mixtures and methods that can be used to prepare the porous polymeric resins, and uses of the porous polymeric resin are described. More specifically, the polymeric resins typically have a hierarchical porous structure plus reactive groups that can be used to interact with or react with a variety of different target compounds. The reactive groups can be selected from an acidic group or a salt thereof, an amino group or salt thereof, a hydroxyl group, an azlactone group, a glycidyl group, or a combination thereof.

Abstract translation: 描述了可用于制备多孔聚合物树脂的多孔聚合物树脂，反应混合物和方法以及多孔聚合物树脂的用途。 更具体地，聚合物树脂通常具有分层多孔结构加上可用于与多种不同目标化合物相互作用或与其反应的反应性基团。 反应性基团可以选自酸性基团或其盐，氨基或其盐，羟基，吖内酯基，缩水甘油基或其组合。

公开(公告)号：US08338534B2

公开(公告)日：2012-12-25

申请号：US12521952

申请日：2008-01-07

Applicant: Takahisa Konishi ,  Takuji Shintani ,  Yushu Matsushita ,  Atsushi Takano ,  Takeshi Asari

Inventor： Takahisa Konishi ,  Takuji Shintani ,  Yushu Matsushita ,  Atsushi Takano ,  Takeshi Asari

IPC: C08L53/00 ,  C08L31/00 ,  C08L29/00

CPC classification number: B01D71/80 ,  B01D67/003 ,  B01D71/24 ,  B01D71/28 ,  B01D71/44 ,  B01D2325/14 ,  B01D2325/16 ,  C08J9/0061 ,  C08J9/26 ,  C08J2201/0462 ,  C08J2353/00

Abstract: A process for producing a microporous polymeric object to improve the degree of freedom for its various properties, compared to conventional processes, includes: mixing a block copolymer made of three or more kinds of segments with a polymer, wherein one or more of the segments are made of monomer units having a first functional group forming ionic and/or hydrogen bond, the segments constitute a co-continuous structure having mutually-independent and continuous regions due to a phase separation based on incompatibility between the segments, and the polymer has, at other than polymer chain terminals, a second functional group forming such bond with the first functional group, thereby allowing the segments to associate with the polymer at many points; forming a co-continuous structure including a region composed of the polymer and the segments due to the phase separation; and removing the polymer from the region by weakening the bond between the functional groups.

Abstract translation: 与常规方法相比，生产微孔聚合物体以提高其各种性质的自由度的方法包括：将由三种或更多种链段制成的嵌段共聚物与聚合物混合，其中一个或多个链段是 由具有形成离子和/或氢键的第一官能团的单体单元制成，所述链段由于基于片段之间的不相容性的相分离而构成具有相互独立且连续的区域的共连续结构，并且聚合物在 除了聚合物链端，第二官能团与第一官能团形成这种键，从而允许链段在多个点与聚合物缔合; 由相分离形成包括由聚合物和链段组成的区域的共连续结构; 并且通过削弱官能团之间的键，从该区域去除聚合物。

公开(公告)号：US20120252912A1

公开(公告)日：2012-10-04

申请号：US13466600

申请日：2012-05-08

Applicant: Takahisa KONISHI ,  Takuji SHINTANI ,  Yushu MATSUSHITA ,  Atsushi TAKANO ,  Takeshi ASARI

Inventor： Takahisa KONISHI ,  Takuji SHINTANI ,  Yushu MATSUSHITA ,  Atsushi TAKANO ,  Takeshi ASARI

IPC: C08J9/26 ,  C08L39/08

CPC classification number: B01D71/80 ,  B01D67/003 ,  B01D71/24 ,  B01D71/28 ,  B01D71/44 ,  B01D2325/14 ,  B01D2325/16 ,  C08J9/0061 ,  C08J9/26 ,  C08J2201/0462 ,  C08J2353/00

Abstract: A process for producing a microporous polymeric object to improve the degree of freedom for its various properties, compared to conventional processes, includes: mixing a block copolymer made of three or more kinds of segments with a polymer, wherein one or more of the segments are made of monomer units having a first functional group forming ionic and/or hydrogen bond, the segments constitute a co-continuous structure having mutually-independent and continuous regions due to a phase separation based on incompatibility between the segments, and the polymer has, at other than polymer chain terminals, a second functional group forming such bond with the first functional group, thereby allowing the segments to associate with the polymer at many points; forming a co-continuous structure including a region composed of the polymer and the segments due to the phase separation; and removing the polymer from the region by weakening the bond between the functional groups.

Abstract translation: 与常规方法相比，生产微孔聚合物体以提高其各种性质的自由度的方法包括：将由三种或更多种链段制成的嵌段共聚物与聚合物混合，其中一个或多个链段是 由具有形成离子和/或氢键的第一官能团的单体单元制成，所述链段由于基于片段之间的不相容性的相分离而构成具有相互独立且连续的区域的共连续结构，并且聚合物在 除了聚合物链端，第二官能团与第一官能团形成这种键，从而允许链段在多个点与聚合物缔合; 由相分离形成包括由聚合物和链段组成的区域的共连续结构; 并且通过削弱官能团之间的键，从该区域去除聚合物。