1 |
非水电解液二次电池用层叠间隔件、非水电解液二次电池用构件及非水电解液二次电池 |
CN201611090068.9 |
2016-11-29 |
CN106803562A |
2017-06-06 |
长谷川博彦 |
本发明提供加热形状维持性及离子透过性优异、并且既为薄膜又降低漏电不良的发生的非水电解液二次电池用层叠间隔件。 |
2 |
固定辅助物的用途 |
CN200910139180.0 |
2009-05-11 |
CN101638562A |
2010-02-03 |
克里斯琴·哈德; 安妮玛丽·米勒; 格哈特·伯 |
本发明涉及固定辅助物的用途。本发明涉及用于制备具有片状载体的胶带的层合组合物,其至少包括多糖组分和表面活性剂组分。 |
3 |
OXAZOLINE ANTI-CONDENSATION COMPOSITIONS, LAMINATES, AND PROCESSES FOR MAKING THE SAME |
US15786143 |
2017-10-17 |
US20180105661A1 |
2018-04-19 |
Michael COMBS; Rafael Rongfu LI; Xiaowei ZHANG; Kevin PARKER; Joanna MARSHALL; Stephen BERNARD |
Anti-condensation compositions and laminates comprising a cellulosic material selected from a cellulose ester and a cellulose ether and a polymer of an oxazoline, and processes for making such anti-condensation compositions without the need for saponification. Such compositions have now been shown to exhibit extremely desirable anti-condensation characteristics, with a low degree of hazing and increased hardness. |
4 |
LAMINATED CORE AND METHOD FOR CONNECTING SHEET METAL PARTS TO FORM A LAMINATED CORE |
US14651462 |
2013-12-11 |
US20150314563A1 |
2015-11-05 |
Ronald Fluch |
A laminated core and a method for connecting sheet metal parts to form a laminated core, wherein sheet metal parts are separated from a sheet metal strip having, at least in some regions, a layer of curable polymer adhesive, and the sheet metal parts with adhesive-coated sides facing one another are provided above one another and are bonded under pressure to form a laminated core. In order to create advantageous method conditions, according to the invention a mixture comprising water and a thermoplastic and/or cross-linkable adhesion promoter is provided on at least one of the adhesive layers facing one another during bonding of the sheet metal parts. |
5 |
LAMINATED FILM AND METHOD FOR LAMINATING FILMS |
US14649430 |
2013-07-22 |
US20150306028A1 |
2015-10-29 |
Sung Hwan BANG; Kyung Yeol PARK; Jin Ryul SON; Jyung Hee JEON; Ju Hee SHIN; Sang Youb LEE |
The inventive concept relates to a laminated film and a method of laminating films, and the disclosed laminated film includes at least two films sequentially stacked and bonded to each other, wherein each of the films may be each independently a gastric film or an enteric film. |
6 |
COMPOSITION FOR EXTRUSION-MOLDED BODIES |
US13089982 |
2011-04-19 |
US20110262690A1 |
2011-10-27 |
Roland Bayer |
A composition for extrusion-molded bodies which comprises a) an inorganic material that sets as a result of baking or sintering, and b) a methylhydroxypropyl cellulose having a DS(methyl) of from 0.8 to 2.5 and an MS(hydroxypropyl) of from 0.50 to 1.20 is useful for producing extrusion-molded bodies for use as a carrier for a catalyst, a catalyst, a heat exchanger, or a filter. |
7 |
押出成形体用の組成物 |
JP2013508033 |
2011-04-19 |
JP5908892B2 |
2016-04-26 |
ローラント バイヤー |
|
8 |
Multilayer film having a uniform component |
JP2007534705 |
2005-09-28 |
JP5160229B2 |
2013-03-13 |
リチャード・シー・フューズ; ジョセフ・エム・フューズ; ギャリー・エル・マイヤーズ |
|
9 |
PREFABRICATED PHARMACEUTICAL DOSAGE FORMS FROM FUNCTIONAL POLYMER FILMS |
US16293565 |
2019-03-05 |
US20190201351A1 |
2019-07-04 |
Rodolfo Pinal; Bo Zhou; Andrew Otte |
A combination of sheets can be combined into an ingestible unit. The individual sheets can be prepared to have one or more functionalities, such as providing a biologically active agent, disintegrating and opening the unit, controlling release of an agent, facilitating absorption from the GI tract, as well as many others. The individual sheets can be selectively identified for combining into a multifunctional ingestible unit with a random or predetermined arrangement or stacking pattern. The individual sheets can be loose in a capsule or laminated together into a stacked layered structure. The combination of sheets can be pressed, laminated, tableted, or otherwise prepared into an ingestible unit. The ingestible unit can be predetermined to be useful for administering a drug, drug combination, multi-drug regimen as well as tailored to subject-specific multi-drug therapeutic regimens. The sheets can be loaded with any type of agent ranging from drugs to anti-counterfeit agents. |
10 |
ACRYLIC POLYVINYL ACETAL FILMS COMPRISING A SECOND LAYER |
US15777686 |
2016-12-13 |
US20180346705A1 |
2018-12-06 |
Jonathan E. Janoski; Carla S. Thomas; Anthony F. Schultz; Tien Y.H. Whiting; Kevin M. Lewandowski; Duane D. Fansler; Keith R. Lyon; Arlin L. Weikel; Timothy J. Hebrink; Amanda K. Hulke; Eric D. Shockey; Anthony M. Renstrom; Sonja S. Mackey; Thomas P. Klun |
A film is described comprising a first film layer having a Tg ranging from 30° C. to 60° C. The first film layer comprises a (meth)acrylic polymer and polyvinyl acetal polymer composition. The film further comprises a second layer proximate the first film layer. The second layer is different than the first film layer. The second may be a cured (meth)acrylic polymer film or coating; a backing such as thermoplastic polymer, woven or nonwoven fabrics, metal foils, paper, foams; or a coverfilm such as a fluoropolymer. |
11 |
Laminated film and method for laminating films |
US14649430 |
2013-07-22 |
US09750686B2 |
2017-09-05 |
Sung Hwan Bang; Kyung Yeol Park; Jin Ryul Son; Jyung Hee Jeon; Ju Hee Shin; Sang Youb Lee |
The inventive concept relates to a laminated film and a method of laminating films, and the disclosed laminated film includes at least two films sequentially stacked and bonded to each other, wherein each of the films may be each independently a gastric film or an enteric film. |
12 |
METHOD OF PREPARING INGESTIBLE MULTI-SHEET UNIT HAVING PREDETERMINED FUNCTIONS AND COMBINATIONS |
US15232307 |
2016-08-09 |
US20160346225A1 |
2016-12-01 |
Rodolfo Pinal; Bo Zhou; Andrew Otte |
A combination of sheets can be combined into an ingestible unit. The individual sheets can be prepared to have one or more functionalities, such as providing a biologically active agent, disintegrating and opening the unit, controlling release of an agent, facilitating absorption from the GI tract, as well as many others. The individual sheets can be selectively identified for combining into a multifunctional ingestible unit with a random or predetermined arrangement or stacking pattern. The individual sheets can be loose in a capsule or laminated together into a stacked layered structure. The combination of sheets can be pressed, laminated, tableted, or otherwise prepared into an ingestible unit. The ingestible unit can be predetermined to be useful for administering a drug, drug combination, multi-drug regimen as well as tailored to subject-specific multi-drug therapeutic regimens. The sheets can be loaded with any type of agent ranging from drugs to anti-counterfeit agents. |
13 |
Composition for extrusion-molded bodies |
US13089982 |
2011-04-19 |
US08968639B2 |
2015-03-03 |
Roland Bayer |
A composition for extrusion-molded bodies which comprises a) an inorganic material that sets as a result of baking or sintering, and b) a methylhydroxypropyl cellulose having a DS(methyl) of from 0.8 to 2.5 and an MS(hydroxypropyl) of from 0.50 to 1.20 is useful for producing extrusion-molded bodies for use as a carrier for a catalyst, a catalyst, a heat exchanger, or a filter. |
14 |
METHOD FOR MANUFACTURING FINE CONCAVE-CONVEX PATTERN AND SHEET FOR MANUFACTURING FINE CONCAVE-CONVEX PATTERN |
US12711644 |
2010-02-24 |
US20100213169A1 |
2010-08-26 |
Toshiro HIRAOKA |
According to a first aspect of the invention, a method for manufacturing a concave-convex pattern includes the steps of heating a sheet-like member, compressively bonding the sheet-like member, removing the sheet-like member after the compressively bonding, and transferring a pattern shape of a reverse concave-convex pattern layer to a surface of the substrate. The sheet-like member has a concave-convex pattern block on at least one of surfaces thereof, and is given flowability thereto by heating. The reverse concave-convex pattern layer is formed on the one of the surfaces, and continues over two or more concaves of the concave-convex pattern block so that the reverse concave-convex pattern layer meshes at least partially with the concave-convex pattern block. At least the reverse concave-convex pattern layer is left on the substrate. Here, the one of the surfaces has the concave-convex pattern block. |
15 |
Adhesive Compositions for Hydrophobic Photopolymers |
US12260080 |
2008-10-28 |
US20100104862A1 |
2010-04-29 |
Alan Gene Miller |
An adhesive composition is disclosed that includes an inorganic material and an adhesion promoting material where the weight ratio of the adhesion promoting material to the inorganic material is sufficient to permit adhesion of the adhesive composition to a hydrophobic photopolymer at or above a predefined adhesion strength level and to maintain an imaging quality of the hydrophobic photopolymer at or above a predefined minimum imaging quality level. The adhesive composition may be used as a tie layer in multilayer structures. In particular, the adhesive composition may be used as a tie layer for binding a hydrophobic photopolymer film to a low-birefringent cover sheet. |
16 |
OPTICAL ARTICLE AND A METHOD FOR PREPARING THE SAME |
US12200284 |
2008-08-28 |
US20100055447A1 |
2010-03-04 |
Seo-Yong CHO |
An optical article includes a light-transmissive substrate and Ti/Sn-containing nanoparticles. The nanoparticles include one or more Ti-rich phases and one or more Sn-rich phases and the phases are arranged in the form of a layered-structure, a network-structure of each other interconnected phases and/or an isolated-structure. Methods of preparing the optical article includes providing Ti/Sn-containing nanoparticles, mixing a curable light-transmissive liquid resin with the Ti/Sn-containing nanoparticles; and curing the liquid resin to form an optical article. |
17 |
INGESTIBLE MULTI-SHEET UNIT HAVING PREDETERMINED FUNCTIONS AND COMBINATIONS |
EP12840176.7 |
2012-10-15 |
EP2765999A1 |
2014-08-20 |
PINAL, Rodolfo; ZHOU, Bo; OTTE, Andrew |
A combination of sheets can be combined into an ingestible unit. The individual sheets can be prepared to have one or more functionalities, such as providing a biologically active agent, disintegrating and opening the unit, controlling release of an agent, facilitating absorption from the GI tract, as well as many others. The individual sheets can be selectively identified for combining into a multifunctional ingestible unit with a random or predetermined arrangement or stacking pattern. The individual sheets can be loose in a capsule or laminated together into a stacked layered structure. The combination of sheets can be pressed, laminated, tableted, or otherwise prepared into an ingestible unit. The ingestible unit can be predetermined to be useful for administering a drug, drug combination, multi-drug regimen as well as tailored to subject- specific multi-drug therapeutic regimens. The sheets can be loaded with any type of agent ranging from drugs to anti-counterfeit agents. |
18 |
METHODS FOR MANUFACTURING MOLDED SHEETS HAVING A HIGH STARCH CONTENT |
EP97922292.4 |
1997-04-09 |
EP1007320B1 |
2005-07-20 |
ANDERSEN, Per, J.; HODSON, Simon, K.; ONG, Shaode; CHRISTENSEN, Bruce, J. |
Compositions and methods for manufacturing sheets having a starch-bound matrix reinforced with fibers and optionally including an inorganic mineral filler. Suitable mixtures for forming the sheets are prepared by mixing together water, unmodified and ungelatinized starch granules, a cellulosic ether, fibers, and optionally an inorganic mineral filler in the correct proportions to form a sheet having desired properties. The mixtures are formed into sheets by passing them between one or more sets of heated rollers to form green sheets. The heated rollers cause the cellulosic ether to form a skin on the outer surfaces of the sheet that prevents the starch granules from causing the sheet to adhere to the rollers upon gelation of the starch. The green sheets are passed between heated rollers to gelatinize the starch granules, and then to dry the sheet by removing a substantial portion of the water by evaporation. The starch and cellulosic ether form the binding matrix of the sheets with the fibers and optional inorganic filler dispersed throughout the binding matrix. The starch-bound sheets can be cut, rolled, pressed, scored, perforated, folded, and glued to fashion articles from the sheets much like paper or paperboard. The sheets are particularly useful in the mass production of containers, such as food and beverage containers. |
19 |
METHODS FOR MANUFACTURING MOLDED SHEETS HAVING A HIGH STARCH CONTENT |
EP97922292 |
1997-04-09 |
EP1007320A4 |
2001-03-14 |
ANDERSEN PER J; HODSON SIMON K; ONG SHAODE; CHRISTENSEN BRUCE J |
Compositions and methods for manufacturing sheets having a starch-bound matrix reinforced with fibers and optionally including an inorganic mineral filler. Suitable mixtures for forming the sheets are prepared by mixing together water, unmodified and ungelatinized starch granules, a cellulosic ether, fibers, and optionally an inorganic mineral filler in the correct proportions to form a sheet having desired properties. The mixtures are formed into sheets by passing them between one or more sets of heated rollers to form green sheets. The heated rollers cause the cellulosic ether to form a skin on the outer surfaces of the sheet that prevents the starch granules from causing the sheet to adhere to the rollers upon gelation of the starch. The green sheets are passed between heated rollers to gelatinize the starch granules, and then to dry the sheet by removing a substantial portion of the water by evaporation. The starch and cellulosic ether form the binding matrix of the sheets with the fibers and optional inorganic filler dispersed throughout the binding matrix. The starch-bound sheets can be cut, rolled, pressed, scored, perforated, folded, and glued to fashion articles from the sheets much like paper or paperboard. The sheets are particularly useful in the mass production of containers, such as food and beverage containers. |
20 |
METHOD FOR PRODUCING OPTICAL FILM |
US15528661 |
2015-11-19 |
US20170266689A1 |
2017-09-21 |
Kenji HAYASHI; Yoshiro TODA; Takato CHIBA |
Provided is a method for producing an optical film using simultaneous multilayer coating application, the method being capable of reducing the incidence of coating failure in an optical film. The present invention relates to a method for producing an optical film having at least two or more optical functional layers formed on a base material, the method including: a loss modulus checking step of checking the loss moduli of coating liquids capable of forming the respective optical functional layers by measuring dynamic viscoelasticity; and a coating application step of performing simultaneous multilayer coating application of the coating liquids capable of forming the respective optical functional layers on the base material. |