公开(公告)号：US20150017725A1

公开(公告)日：2015-01-15

申请号：US14320914

申请日：2014-07-01

Applicant: TOYODA GOSEI CO., LTD. ,  National University Corporation Yamagata University

Inventor： Seitaro TAKI ,  Hisashi MIZUNO ,  Hiroyuki NAKAGAWA ,  Toshiyuki HAGIYAMA ,  Atsuki YOSHIMURA ,  Masaru TANAKA ,  Ayano SASAKI ,  Toshifumi TAKAHASHI ,  Tsuyoshi OHTA

IPC: C12N5/00 ,  B05D5/00 ,  B05D3/10

CPC classification number: C12N5/0068 ,  B01D67/0023 ,  B01D71/54 ,  B01D2325/08 ,  B05D3/108 ,  B05D5/00 ,  C08J9/08 ,  C08J9/125 ,  C08J2201/032 ,  C08J2203/02 ,  C08J2203/10 ,  C08J2207/10 ,  C08J2375/04 ,  C12N2533/30

Abstract: A polyurethane porous membrane is produced by a simple method to be used for at least one of applications of cell culture and cancer cell growth inhibition. The production method of the polyurethane porous membrane to be used for at least one of the applications of cell culture and cancer cell growth inhibition comprises: a first step of forming a layer of a polyurethane material which is uncured, on a substrate; and a second step of supplying water vapor to an exposed surface of the layer of the polyurethane material formed on the substrate, which is away from the substrate, so as to cure the polyurethane material and provide the layer of the polyurethane material with a porous structure having a plurality of irregularities on the exposed surface.

Abstract translation: 通过简单的方法制备聚氨酯多孔膜，用于细胞培养和癌细胞生长抑制的应用中的至少一种。 用于细胞培养和癌细胞生长抑制的至少一个应用的聚氨酯多孔膜的制造方法包括：在基材上形成未固化的聚氨酯材料层的第一工序; 以及向远离基板的基板上形成的聚氨酯材料层的暴露表面供给水蒸气的第二步骤，以便固化聚氨酯材料，并为聚氨酯材料层提供多孔结构 在暴露表面上具有多个凹凸。

公开(公告)号：US20140323604A1

公开(公告)日：2014-10-30

申请号：US14255384

申请日：2014-04-17

Applicant: tesa SE

Inventor： Axel Burmeister ,  Franziska Czerwonatis

IPC: C08J9/32 ,  B29C43/24 ,  C09J9/00

CPC classification number: C08J9/32 ,  B29B7/485 ,  B29B7/487 ,  B29B7/72 ,  B29B7/7461 ,  B29B7/845 ,  B29B7/86 ,  B29B7/90 ,  B29C35/08 ,  B29C43/24 ,  B29C44/20 ,  B29C44/3442 ,  B29C44/5609 ,  B29C44/5627 ,  B29C2035/0827 ,  B29C2035/0833 ,  B29C2035/0877 ,  B29K2105/0076 ,  B29K2105/04 ,  B29K2105/041 ,  B29K2105/046 ,  B29K2995/0063 ,  C08J9/122 ,  C08J9/30 ,  C08J2201/026 ,  C08J2201/03 ,  C08J2201/032 ,  C08J2203/06 ,  C08J2203/182 ,  C08J2203/22 ,  C08J2205/044 ,  C08J2205/06 ,  C08J2207/02 ,  C08J2307/00 ,  C08J2321/00 ,  C08J2333/08 ,  C09J7/10 ,  C09J9/00 ,  C09J107/00 ,  C09J133/08 ,  C09J2201/606 ,  C09J2205/102 ,  C09J2205/11 ,  C09J2205/114 ,  C09J2400/24 ,  C09J2407/00 ,  C09J2409/00 ,  C09J2433/00

Abstract: A polymer foam having high bonding strength and improved compressive hardness characteristics is accomplished by the polymer foam comprising cavities formed by microballoons, and also 2 to 20 vol. %, based on the total volume of the polymer foam, of cavities surrounded by the polymer foam matrix.

Abstract translation: 具有高结合强度和改进的压缩硬度特性的聚合物泡沫体通过包含由微球形成的空腔的聚合物泡沫体实现，并且还可以是2-20体积％ 基于聚合物泡沫的总体积，由聚合物泡沫基质包围的空腔的％。

公开(公告)号：US08846774B2

公开(公告)日：2014-09-30

申请号：US13560399

申请日：2012-07-27

Applicant: Naomi Jintoku ,  Itsuhiro Hatanaka ,  Tetsurou Kobayashi

Inventor： Naomi Jintoku ,  Itsuhiro Hatanaka ,  Tetsurou Kobayashi

IPC: C08F8/00 ,  C08L23/00 ,  C08L21/00 ,  C08L23/12 ,  C08J9/00 ,  C08J9/12 ,  B32B27/32 ,  B32B5/18 ,  C09K3/10 ,  C08J9/08 ,  C08L23/10 ,  C08L23/04 ,  C08L23/02 ,  C08L23/16

CPC classification number: C08L23/12 ,  B32B5/18 ,  B32B27/32 ,  C08J9/0061 ,  C08J9/08 ,  C08J9/12 ,  C08J9/122 ,  C08J2201/032 ,  C08J2203/08 ,  C08J2205/04 ,  C08J2323/12 ,  C08J2323/16 ,  C08J2491/00 ,  C08L21/00 ,  C08L23/00 ,  C08L23/02 ,  C08L23/04 ,  C08L23/10 ,  C08L23/16 ,  C08L2205/02 ,  C08L2205/025 ,  C09K3/10 ,  C09K2200/0208 ,  C09K2200/0239 ,  C09K2200/0617

Abstract: The present invention relates to a resin composition for a polyolefin resin foam, including: a polyolefin (A) having a melt flow rate (MFR) at a temperature of 230° C. of 0.2 to 0.7 g/10 min and a melt tension at break measured at a temperature of 190° C. of 30 cN or more; and a polyolefin (B) having a melt flow rate (MFR) at a temperature of 230° C. of 1.5 to 10 g/10 min and a melt tension at break measured at a temperature of 190° C. of 10 cN or more, in which the polyolefin (B) is contained in an amount of from 15 to 75 parts by weight based on 100 parts by weight of the polyolefin (A).

Abstract translation: 本发明涉及一种聚烯烃树脂发泡体用树脂组合物，其特征在于，在230℃的温度下的熔体流动速率（MFR）为0.2〜0.7g / 10分钟，熔融张力为 在190℃的温度下测定为30cN以上; 在230℃的温度下的熔体流动速率（MFR）为1.5〜10g / 10分钟，在190℃的温度下测定的熔融张力为10cN以上的聚烯烃（B） ，其中聚烯烃（B）的含量相对于聚烯烃（A）100重量份为15〜75重量份。

公开(公告)号：US20140151919A1

公开(公告)日：2014-06-05

申请号：US14091100

申请日：2013-11-26

Applicant: MicroGREEN Polymers Inc.

Inventor： Gregory L. Branch

IPC: B29B11/14

CPC classification number: B29C44/3453 ,  B29B11/14 ,  B29C44/04 ,  B29C44/0415 ,  B29C44/0461 ,  B29C44/0484 ,  B29C44/06 ,  B29C44/3446 ,  B65D81/3867 ,  B65D81/3874 ,  C08J9/122 ,  C08J2201/032

Abstract: The present invention is directed to a deep draw microcellularly foamed polymeric container comprising a polymeric sidewall integrally connected to a polymeric base along a bottom edge. The polymeric sidewall and base are contiguous with each other and define a shape of an open top container. The polymeric sidewall and base have a contiguous inner microcellular foam structure (having average cell diameters ranging from about 5 to about 100 microns) surrounded by a smooth outer skin layer integrally connected therewith. The polymeric sidewall defines a container height and a top opening, wherein the top opening defines a top opening width, and wherein the polymeric base defines a container base width, and wherein the area defined by the top opening is greater than the area defined by the polymeric base, and wherein the ratio of the container height (h) to the top opening width (w) is greater than about 1:1 (h:w).

Abstract translation: 本发明涉及一种深拉伸微孔泡沫聚合物容器，其包括沿底部边缘整体地连接到聚合物基底的聚合物侧壁。 聚合物侧壁和基底彼此邻接并限定开口顶部容器的形状。 聚合物侧壁和基底具有由与其整体连接的光滑外表皮层包围的连续的内部微细胞泡沫结构（平均泡孔直径范围为约5至约100微米）。 聚合物侧壁限定容器高度和顶部开口，其中顶部开口限定顶部开口宽度，并且其中聚合物基部限定容器基部宽度，并且其中由顶部开口限定的区域大于由 聚合物基底，并且其中容器高度（h）与顶部开口宽度（w）的比率大于约1:1（h:w）。

公开(公告)号：US20140088214A1

公开(公告)日：2014-03-27

申请号：US14116100

申请日：2012-05-17

Applicant: Masahiko Okamoto ,  Mayumi Yasuda ,  Tetsuji Kasai ,  Kazuyoshi Kaneko ,  Kyoko Kobayashi ,  Kotaro Ichino

Inventor： Masahiko Okamoto ,  Mayumi Yasuda ,  Tetsuji Kasai ,  Kazuyoshi Kaneko ,  Kyoko Kobayashi ,  Kotaro Ichino

IPC: C08F32/04 ,  C08L23/26 ,  C08L23/14 ,  C08L23/08

CPC classification number: C08F32/04 ,  C08F210/06 ,  C08F210/16 ,  C08F210/18 ,  C08F2500/12 ,  C08F2500/17 ,  C08F2500/25 ,  C08J9/06 ,  C08J9/122 ,  C08J2201/026 ,  C08J2201/03 ,  C08J2201/032 ,  C08J2203/06 ,  C08J2203/08 ,  C08J2205/044 ,  C08J2205/046 ,  C08J2323/14 ,  C08J2323/16 ,  C08L23/08 ,  C08L23/14 ,  C08L23/142 ,  C08L23/145 ,  C08L23/26 ,  C08L2203/14 ,  C08L2205/03 ,  C08L23/10 ,  C08L23/04 ,  C08L23/18 ,  C08L23/20 ,  C08F2500/09 ,  C08F2500/11 ,  C08F236/20 ,  C08L23/16 ,  C08L23/22

Abstract: To provide a propylene-based copolymer and a propylene-based copolymer composition, each of which has a high melt tension because it has a long-chain branched structure, exhibits excellent molding processability during molding, such as inflation molding, extrusion molding, blow molding, injection molding or vacuum forming, and is capable of favorably providing a foamed product having an excellent expansion ratio and excellent cell uniformity in the foaming stage. The propylene-based copolymer (A) of the present invention comprises 50 to 95% by mol of constituent units [i] derived from propylene, 4.9 to 49.9% by mol of constituent units [ii] derived from an α-olefin of 2 to 10 carbon atoms other than propylene and 0.1 to 10% by mol of constituent units [iii] derived from a non-conjugated polyene (with the proviso that the total amount of the constituent units [i], [ii] and [iii] is 100% by mol), and is characterized by satisfying specific requirements (a) and (c).

Abstract translation: 为了提供由于具有长支链结构而具有高熔融张力的丙烯类共聚物和丙烯类共聚物组合物，在吹塑成型，挤出成型，吹塑成型时呈现优异的成型加工性 ，注射成型或真空成型，并且能够有利地提供在发泡阶段具有优异的膨胀率和优异的电池均匀性的发泡产品。 本发明的丙烯系共聚物（A）含有50〜95摩尔％的来自丙烯的结构单元[i]，4.9〜49.9摩尔％的α-烯烃的构成单元[ii]为2〜 除丙烯外的10个碳原子和0.1〜10摩尔的来自非共轭多烯的构成单元[iii]（条件是构成单元[i]，[ii]和[iii]的总量为 100摩尔％），其特征在于满足特定要求（a）和（c）。

公开(公告)号：US08357319B2

公开(公告)日：2013-01-22

申请号：US13313873

申请日：2011-12-07

Applicant: Krishna V. Nadella ,  Dustin Miller ,  Vipin Kumar ,  William F. Kuykendall ,  Stephen Probert

Inventor： Krishna V. Nadella ,  Dustin Miller ,  Vipin Kumar ,  William F. Kuykendall ,  Stephen Probert

IPC: B29C67/20

CPC classification number: B29C44/10 ,  B29C44/3453 ,  B29C44/5609 ,  B29C44/588 ,  B29K2079/085 ,  B29K2105/04 ,  B29K2995/0039 ,  B29K2995/004 ,  C08J9/00 ,  C08J2201/032 ,  Y10T428/249978 ,  Y10T428/249979

Abstract: Methods for reducing the density of thermoplastic materials and the articles made therefrom having similar or improved mechanical properties to the solid or noncellular material. Also disclosed are improvements to foaming methods and the cellular structures of the foams made therefrom, and methods for altering the impact strength of solid or noncellular thermoplastic materials and the shaping of the materials into useful articles.

Abstract translation: 降低热塑性材料密度和由其制成的制品的方法具有与固体或非细胞材料相似或改善的机械性能。 还公开了对由其制备的泡沫的发泡方法和泡孔结构的改进，以及用于改变固体或非细胞热塑性材料的冲击强度以及将材料成型为有用制品的方法。

公开(公告)号：US20120090764A1

公开(公告)日：2012-04-19

申请号：US13313873

申请日：2011-12-07

Applicant: Krishna V. Nadella ,  Dustin Miller ,  Vipin Kumar ,  William F. Kuykendall ,  Stephen Probert

Inventor： Krishna V. Nadella ,  Dustin Miller ,  Vipin Kumar ,  William F. Kuykendall ,  Stephen Probert

IPC: B29C67/20 ,  B29C65/00

CPC classification number: B29C44/10 ,  B29C44/3453 ,  B29C44/5609 ,  B29C44/588 ,  B29K2079/085 ,  B29K2105/04 ,  B29K2995/0039 ,  B29K2995/004 ,  C08J9/00 ,  C08J2201/032 ,  Y10T428/249978 ,  Y10T428/249979

Abstract: Methods for reducing the density of thermoplastic materials and the articles made therefrom having similar or improved mechanical properties to the solid or noncellular material. Also disclosed are improvements to foaming methods and the cellular structures of the foams made therefrom, and methods for altering the impact strength of solid or noncellular thermoplastic materials and the shaping of the materials into useful articles.

Abstract translation: 降低热塑性材料密度和由其制成的制品的方法具有与固体或非细胞材料相似或改善的机械性能。 还公开了对由其制备的泡沫的发泡方法和泡孔结构的改进，以及用于改变固体或非细胞热塑性材料的冲击强度以及将材料成型为有用制品的方法。

公开(公告)号：US08092626B2

公开(公告)日：2012-01-10

申请号：US12047263

申请日：2008-03-12

Applicant: Krishna V. Nadella ,  Dustin Miller ,  Vipin Kumar ,  William F. Kuykendall ,  Stephen Probert

Inventor： Krishna V. Nadella ,  Dustin Miller ,  Vipin Kumar ,  William F. Kuykendall ,  Stephen Probert

IPC: B29C65/02 ,  B32B5/20

CPC classification number: B29C44/10 ,  B29C44/3453 ,  B29C44/5609 ,  B29C44/588 ,  B29K2079/085 ,  B29K2105/04 ,  B29K2995/0039 ,  B29K2995/004 ,  C08J9/00 ,  C08J2201/032 ,  Y10T428/249978 ,  Y10T428/249979

Abstract: Methods for reducing the density of thermoplastic materials and the articles made therefrom having similar or improved mechanical properties to the solid or noncellular material. Also disclosed are improvements to foaming methods and the cellular structures of the foams made therefrom, and methods for altering the impact strength of solid or noncellular thermoplastic materials and the shaping of the materials into useful articles.

Abstract translation: 降低热塑性材料密度和由其制成的制品的方法具有与固体或非细胞材料相似或改善的机械性能。 还公开了对由其制备的泡沫的发泡方法和泡孔结构的改进，以及用于改变固体或非细胞热塑性材料的冲击强度以及将材料成型为有用制品的方法。

公开(公告)号：US20110275727A1

公开(公告)日：2011-11-10

申请号：US13144436

申请日：2010-01-12

Applicant: Takayuki Yamamoto ,  Keiko Ochiai ,  Mitsuhiro Kanada ,  Hironori Yasuda ,  Akira Hirao ,  Masatomi Harada ,  Shuhei Kanzakitani

Inventor： Takayuki Yamamoto ,  Keiko Ochiai ,  Mitsuhiro Kanada ,  Hironori Yasuda ,  Akira Hirao ,  Masatomi Harada ,  Shuhei Kanzakitani

IPC: C08J9/36 ,  C08J9/10 ,  C08J9/08 ,  C08J9/35

CPC classification number: C08J9/12 ,  C08J3/243 ,  C08J9/36 ,  C08J2201/024 ,  C08J2201/026 ,  C08J2201/032 ,  C08J2203/08 ,  C08J2300/26 ,  C08J2333/04

Abstract: Disclosed is a resin foam which excels in properties such as strength, flexibility, cushioning properties, and strain recovery, particularly has a cell structure resistant to shrinkage caused by the restoring force of the resin, and has a high expansion ratio.The cross-linked resin foam is obtained by heating a resin composition containing an elastomer, an active-energy-ray-curable compound, and a thermal crosslinking agent to form a cross-linked structure derived from the thermal crosslinking agent in the resin composition; subjecting the cross-linked-structure-containing resin composition to foam molding to give a foamed structure; and irradiating the foamed structure with an active energy ray to form another cross-linked structure derived from the active-energy-ray-curable compound to give the cross-linked resin foam.

Abstract translation: 公开了一种树脂发泡体，其特性如强度，柔韧性，缓冲性，应变恢复性，特别是具有耐树脂恢复力而引起的收缩性的电池结构，具有高膨胀率。 通过加热含有弹性体，活性能量射线固化性化合物和热交联剂的树脂组合物，形成交联树脂发泡体，从而在树脂组合物中形成由热交联剂衍生的交联结构体; 对含有交联结构的树脂组合物进行发泡成型，得到发泡结构体; 并用活性能量射线照射发泡结构，形成由活性能量射线固化性化合物衍生的其他交联结构，得到交联型树脂发泡体。

公开(公告)号：US07994231B2

公开(公告)日：2011-08-09

申请号：US11814199

申请日：2006-01-18

Applicant: Paul Jacobs ,  Neil Witten

Inventor： Paul Jacobs ,  Neil Witten

IPC: C08J9/00 ,  C08J9/22 ,  B29C44/08

CPC classification number: C08J9/122 ,  B29C44/08 ,  B29C44/3453 ,  B29C44/348 ,  C08J9/0061 ,  C08J2201/03 ,  C08J2201/032 ,  C08J2205/052 ,  C08J2377/02 ,  C08J2423/00

Abstract: Closed cell polyamide foams are prepared by subjecting a polyamide resin to inert gases at an elevated pressure and at a temperature above the softening point of the resin and reducing the pressure while the temperature is maintained above the softening point of the resin, resulting in expansion of the resin.

Abstract translation: 闭孔聚酰胺泡沫体是通过在高压和高于树脂软化点的温度下将聚酰胺树脂进行惰性气体制备的，并且在保持高于树脂软化点的同时降低压力，导致膨胀 树脂。