公开(公告)号：US20170182223A1

公开(公告)日：2017-06-29

申请号：US15460899

申请日：2017-03-16

Applicant: Access Vascular, Inc.

Inventor： James F. Biggins ,  Michael Bassett ,  Daniel Donahue

IPC: A61L29/04 ,  A61L29/18 ,  C08J9/00 ,  A61L33/06 ,  A61L33/00 ,  C08J9/28 ,  A61L29/14 ,  A61L29/02

CPC classification number: A61L29/041 ,  A61L17/10 ,  A61L27/16 ,  A61L27/56 ,  A61L29/02 ,  A61L29/049 ,  A61L29/146 ,  A61L29/16 ,  A61L29/18 ,  A61L33/007 ,  A61L33/064 ,  A61L2300/42 ,  A61L2400/12 ,  A61M25/005 ,  B29C48/00 ,  B29C48/05 ,  B29C48/78 ,  B29C48/865 ,  B29C67/0029 ,  B29K2105/04 ,  B29L2031/753 ,  C08J9/0061 ,  C08J9/0066 ,  C08J9/28 ,  C08J2201/03 ,  C08J2201/0546 ,  C08J2205/042 ,  C08J2205/044 ,  C08J2207/10 ,  C08J2329/04 ,  C08J2433/02 ,  D01F1/08 ,  D01F6/14 ,  D01F6/50 ,  C08L29/04

Abstract: High strength biomedical materials and processes for making the same are disclosed. Included in the disclosure are nanoporous hydrophilic solids that can be extruded with a high aspect ratio to make high strength medical catheters and other devices with lubricious and biocompatible surfaces.

公开(公告)号：US20160355662A1

公开(公告)日：2016-12-08

申请号：US15238723

申请日：2016-08-17

Applicant: FUJIFILM CORPORATION

Inventor： Shinsuke TOKUOKA ,  Ritsuko HORI

IPC: C08J9/28 ,  C08B16/00 ,  C08B1/00

CPC classification number: C08J9/28 ,  C08B1/003 ,  C08B15/10 ,  C08B16/00 ,  C08J2201/0546 ,  C08J2301/00 ,  C08J2301/02

Abstract: Provided are a method of manufacturing porous cellulose particles, including a cellulose solution preparation step of preparing a cellulose solution by dissolving cellulose in an aqueous lithium bromide solution, a dispersion preparation step of preparing a cellulose solution dispersion by dispersing the cellulose solution in an organic dispersion medium, and a coagulation step of coagulating cellulose in the cellulose solution dispersion by cooling the cellulose solution dispersion and adding a coagulation solvent thereto such that porous particles are obtained, and porous cellulose particles obtained by the method for manufacturing porous cellulose particles.

Abstract translation: 提供一种制造多孔纤维素颗粒的方法，包括通过将纤维素溶解在溴化锂水溶液中制备纤维素溶液的纤维素溶液制备步骤，通过将纤维素溶液分散在有机分散体中制备纤维素溶液分散体的分散体制备步骤 介质和凝固步骤，通过冷却纤维素溶液分散体并在其中加入凝固溶剂使得得到多孔颗粒，以及通过制造多孔纤维素颗粒的方法获得的多孔纤维素颗粒，将纤维素凝结在纤维素溶液分散体中。

公开(公告)号：US08426070B2

公开(公告)日：2013-04-23

申请号：US12747831

申请日：2008-12-12

Applicant: Kotaro Kimishima ,  Sadakatsu Suzuki

Inventor： Kotaro Kimishima ,  Sadakatsu Suzuki

IPC: B01D71/06 ,  H01M2/16 ,  C08J9/28

CPC classification number: C08J9/28 ,  B01D67/0016 ,  B01D67/0095 ,  B01D2323/08 ,  C08J11/02 ,  C08J2201/03 ,  C08J2201/0543 ,  C08J2201/0546 ,  H01M2/145 ,  H01M2/1653 ,  H01M10/052 ,  H01M10/0565

Abstract: The invention relates to a method for removing diluent from a polymer extrudate, especially in connection with a process for producing a microporous membrane. The method involves contacting the extrudate with a second solvent in a first stage; contacting the extrudate from the first stage with a third solvent in a second stage; conducting a first stream away from the first stage and/or conducting a second stream away from the second stage; and cooling at least a portion of the first and/or second stream and separating therefrom at least one of a first phase rich in the second solvent or a second phase rich in the third solvent.

Abstract translation: 本发明涉及一种用于从聚合物挤出物中除去稀释剂的方法，特别是涉及用于生产微孔膜的方法。 该方法包括在第一阶段使挤出物与第二溶剂接触; 在第二阶段将来自第一阶段的挤出物与第三溶剂接触; 将远离所述第一级的第一流和/或从所述第二级进行第二流的第一流; 以及冷却所述第一和/或第二物流的至少一部分并从其中分离富含第二溶剂的第一相或富含第三溶剂的第二相中的至少一种。

公开(公告)号：US20110127763A1

公开(公告)日：2011-06-02

申请号：US12971726

申请日：2010-12-17

Applicant: Paul L. Benenati ,  James L. Boyer ,  Charles R. Coleman ,  Luciano M. Parrinello ,  Narayan K. Raman

Inventor： Paul L. Benenati ,  James L. Boyer ,  Charles R. Coleman ,  Luciano M. Parrinello ,  Narayan K. Raman

IPC: B42D15/00 ,  B32B3/26 ,  B32B5/00 ,  B29C47/00 ,  B29C47/38

CPC classification number: C08J5/18 ,  B32B7/12 ,  B32B27/08 ,  B32B27/18 ,  B32B27/20 ,  B32B27/32 ,  B32B2250/03 ,  B32B2250/24 ,  B32B2250/40 ,  B32B2264/102 ,  B32B2264/12 ,  B32B2305/026 ,  B32B2305/30 ,  B32B2425/00 ,  B32B2554/00 ,  C06B23/008 ,  C08J9/28 ,  C08J2201/03 ,  C08J2201/0543 ,  C08J2201/0546 ,  C08J2205/05 ,  C08J2323/02 ,  C08J2323/06 ,  Y10T428/249978 ,  Y10T428/24998 ,  Y10T428/249981 ,  Y10T428/249986

Abstract: Provided is a microporous material, e.g., a microporous sheet material, having a matrix of polyolefin, finely-divided, substantially water insoluble particulate filler, a network of interconnecting pores communicating throughout the microporous material, and at least one retrospectively identifiable taggant material embedded within the matrix, optionally the at least one taggant being unique to an end user for the microporous material, wherein the polyolefin is present in the microporous material in an amount of 20 to 35 weight percent, based on the weight of the microporous material. The taggant material provides a marker, signature or code that is capable of retrospective identification by machine, instrument or by the naked eye. Articles including the microporous material and processes for preparing the microporous material also are provided.

Abstract translation: 提供了一种微孔材料，例如微孔片材，其具有聚烯烃基质，细分的，基本上不溶于水的颗粒填料，连通整个微孔材料的互连孔网络，以及至少一个可回收识别的标记物材料 所述基质，任选地所述至少一种标签剂对于所述微孔材料的最终用户是独特的，其中所述聚烯烃以所述微孔材料的重量计为20-35重量％的量存在于所述微孔材料中。 标签材料提供能够通过机器，仪器或肉眼追溯鉴定的标记，签名或代码。 还提供了包括微孔材料的制品和用于制备微孔材料的方法。

公开(公告)号：US20090169862A1

公开(公告)日：2009-07-02

申请号：US12318167

申请日：2008-12-23

Applicant: Jang-Weon Rhee ,  Inhwa Jung ,  Gwigwon Kang ,  Youngkeun Lee

Inventor： Jang-Weon Rhee ,  Inhwa Jung ,  Gwigwon Kang ,  Youngkeun Lee

IPC: B32B3/26 ,  B32B27/32

CPC classification number: B32B27/32 ,  B32B37/153 ,  B32B38/0032 ,  B32B2038/0028 ,  B32B2305/30 ,  C08J9/28 ,  C08J2201/0543 ,  C08J2201/0546 ,  C08J2323/06 ,  H01M2/1653 ,  H01M2/1686 ,  Y10T428/1379 ,  Y10T428/249978 ,  Y10T428/249979 ,  Y10T428/249981 ,  Y10T428/249986

Abstract: The present invention relates to a multi-layered microporous polyolefin film for a battery separator and a method for preparing the same. The microporous multi-layered film of the present invention has a characteristics to have both the low shutdown temperature conferred by the polyethylene and the high melt fracture temperature conferred by the polypropylene and heat-resistant filler. In addition, it has the high strength and stability conferred by the micropores prepared under wet process and the high permeability and high strength conferred by the macropores prepared under dry process. Therefore, this multi-layered film can be used effectively to manufacture a secondary battery with high capacity and high power.

Abstract translation: 本发明涉及一种电池用隔膜用多层多孔聚烯烃薄膜及其制备方法。 本发明的微孔多层膜具有由聚乙烯赋予的低关闭温度和由聚丙烯和耐热填料赋予的高熔融断裂温度两者的特性。 此外，它具有由湿法制备的微孔赋予的高强度和稳定性，以及由干法制备的大孔赋予的高渗透性和高强度。 因此，该多层膜可以有效地用于制造高容量，高功率的二次电池。

公开(公告)号：US20080210626A1

公开(公告)日：2008-09-04

申请号：US11794698

申请日：2006-01-06

Applicant: Norio Tsujioka ,  Satoshi Aoki ,  Ken Hosoya

Inventor： Norio Tsujioka ,  Satoshi Aoki ,  Ken Hosoya

IPC: B01J20/26 ,  B01D39/16 ,  C08J9/26

CPC classification number: C08J9/286 ,  B01D67/0006 ,  B01D71/46 ,  B01D2323/18 ,  B01J20/26 ,  C08J2201/0543 ,  C08J2201/0546 ,  C08J2363/00 ,  Y10T428/249979

Abstract: A porous object comprising a three-dimensional network skeleton of a cured epoxy resin and having interconnecting pores, characterized in that the three-dimensional network skeleton forms a non-particle-aggregation type porous object constituted of a three-dimensional branched columnar structure, the proportion of aromatic-ring-derived carbon atoms to all the carbon atoms as a component of the cured epoxy resin is 0.10-0.65, and the porous object has a porosity of 20-80% and an average pore diameter of 0.5-50 μm.

Abstract translation: 一种多孔物体，其包含固化环氧树脂的三维网状骨架并具有互连孔，其特征在于，所述三维网状骨架形成由三维分支柱状结构构成的非粒子聚集型多孔体， 作为固化环氧树脂的组分的芳族环衍生的碳原子与所有碳原子的比例为0.10-0.65，多孔物质的孔隙率为20-80％，平均孔径为0.5〜50μm。

公开(公告)号：US06689465B1

公开(公告)日：2004-02-10

申请号：US10089847

申请日：2002-04-04

Applicant: Akihiro Omori ,  Yohsuke Koizumi

Inventor： Akihiro Omori ,  Yohsuke Koizumi

IPC: B32B566

CPC classification number: C08J9/16 ,  C08J9/28 ,  C08J2201/0543 ,  C08J2201/0546 ,  C08J2371/00 ,  C08J2371/08 ,  Y10T428/2982 ,  Y10T428/2998

Abstract: Disclosed is substantially spherical porous beads of an aromatic polyether ketone resin, which have an average particle diameter of 50 to 5,000 &mgr;m and a porosity of 40 to 99%. Also disclosed is a method for producing porous beads, which comprises: mixing, while heating, an aromatic polyether ketone resin with a sol vent capable of dissolving the resin to thereby obtain a resin solution; dispersing the resin solution in a liquid dispersion medium which is incapable of dissolving the resin and is non-miscible with the solvent, to thereby obtain a dispersion having the resin solution dispersed therein in the form of globules; cooling the dispersion while maintaining the dispersed form of the resin solution in the liquid dispersion medium, to thereby solidify the resin in the resin solution; and separating the solidified resin from a mixture of the solvent and the liquid dispersion medium, thereby obtaining substantially spherical porous beads of the aromatic polyether ketone resin.

Abstract translation: 公开了平均粒径为50〜5000μm，孔隙率为40〜99％的芳香族聚醚酮树脂的大致球状的多孔质珠粒。 还公开了一种多孔珠粒的制造方法，其特征在于，在加热时混合具有溶解所述树脂的溶剂通道的芳香族聚醚酮树脂，得到树脂溶液; 将树脂溶液分散在不能溶解树脂并且不溶于溶剂的液体分散介质中，从而获得以小球形式分散有树脂溶液的分散体; 冷却分散体，同时将分散形式的树脂溶液保持在液体分散介质中，从而固化树脂溶液中的树脂; 并从溶剂和液体分散介质的混合物中分离固化树脂，从而获得芳族聚醚酮树脂的基本上球形的多孔珠粒。

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：US5750245A

公开(公告)日：1998-05-12

申请号：US464795

申请日：1995-06-26

Applicant: Bert J. Exsted ,  Steven L. Kangas

Inventor： Bert J. Exsted ,  Steven L. Kangas

IPC: B01D15/08 ,  B01D67/00 ,  B01D71/44 ,  B01D71/78 ,  C08J9/00 ,  C08J9/28 ,  B32B3/10

CPC classification number: C08J9/28 ,  B01D67/0027 ,  B01D67/003 ,  B01D71/44 ,  B01D71/78 ,  B01D2323/08 ,  B01D2323/24 ,  B01D71/26 ,  B01D71/62 ,  C08J2201/0543 ,  C08J2201/0546 ,  Y10T428/249978 ,  Y10T428/249979

Abstract: The present invention provides a microporous material or a membrane in which the membrane includes an azlactone moiety which is blended with or grafted to a thermoplastic polymer to provide a porous material having an internal structure characterized by a multiplicity of spaced, randomly disposed, non-uniform shaped, equiaxed particles of the polyazlactone polymer/thermoplastic polymer blends or the azlactone-graft copolymer. Each of the adjacent particles throughout the material are separated from one another to provide said material with a network of interconnected micropores and each of the particles are connected to each other by a plurality of fibrils. In addition to unmodified azlactone membranes, membranes which have been modified by subsequent reaction of the azlactone moiety with a suitable nucleophile are also included within the scope of the present invention. Preferred nucleophiles capable of reacting with an azlactone membrane of this invention include biologically significant nucleophiles such as amines, thiols and alcohols as well as amino acids, nucleic acids and proteins.

Abstract translation: PCT No.PCT / US94 / 01062 Sec。 371日期：1995年6月26日 102（e）日期1995年6月26日PCT 1994年1月28日PCT PCT。 WO94 / 16803 PCT出版物 日期1994年8月4日本发明提供了一种微孔材料或膜，其中膜包括偕根酮部分，其与热塑性聚合物共混或接枝到热塑性聚合物上，以提供多孔材料，其具有以多个间隔的随机 聚异氰酸酯聚合物/热塑性聚合物共混物或吖内酯接枝共聚物的非均匀形状等轴晶粒。 整个材料中的每个相邻颗粒彼此分离，以使所述材料具有互连微孔的网络，并且每个颗粒通过多个原纤维彼此连接。 除了未改性的吖内酯膜之外，已经通过吖内酯部分与合适的亲核试剂的后续反应进行了修饰的膜也包括在本发明的范围内。 能够与本发明的吖内酯膜反应的优选的亲核试剂包括生物显着的亲核试剂例如胺，硫醇和醇以及氨基酸，核酸和蛋白质。

公开(公告)号：US5726211A

公开(公告)日：1998-03-10

申请号：US620059

申请日：1996-03-21

Applicant: Jeffrey Curtis Hedrick ,  James Lupton Hedrick ,  Jons Gunnar Hilborn ,  Yun-Hsin Liao ,  Robert Dennis Miller ,  Da-Yuan Shih

Inventor： Jeffrey Curtis Hedrick ,  James Lupton Hedrick ,  Jons Gunnar Hilborn ,  Yun-Hsin Liao ,  Robert Dennis Miller ,  Da-Yuan Shih

IPC: C08J9/28 ,  H05K1/00 ,  H05K1/03 ,  C08J9/26

CPC classification number: C08J9/283 ,  C08J2201/0546 ,  C08J2379/08 ,  C08J2383/04 ,  H05K1/0346 ,  H05K3/4676

Abstract: The present invention relates to a process for forming a foamed elastomeric polymer. The process involves forming a reverse emulsion of liquid droplets in a continuous liquid phase of polymer precursor and then polymerizing the precursor to entrap uniformly distributed droplets of the liquid in pores formed in the polymer bulk. The liquid in the pores is then removed under supercritical conditions.

Abstract translation: 本发明涉及形成泡沫弹性体聚合物的方法。 该方法包括在聚合物前体的连续液相中形成液滴的反相乳液，然后使前体聚合以在均匀分布的液滴中捕获在聚合物体中形成的孔中。 然后在超临界条件下除去孔中的液体。