| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Composition having a content that is not highly gelatinized | JP53648997 | 1997-04-09 | JP3425959B2 | 2003-07-14 | アンダーセン,パー,ジェイ.; オング,シャオデ.; クリステンセン,ブルース,ジェイ.; ホドソン,サイモン,ケー. |
| 42 | Composition having a content that is not highly gelatinized | JP53648997 | 1997-04-09 | JP2000504058A | 2000-04-04 | アンダーセン,パー,ジェイ.; オング,シャオデ.; クリステンセン,ブルース,ジェイ.; ホドソン,サイモン,ケー. |
| (57)【要約】 繊維で強化された澱粉で結合されるマトリックスを有し、および必要に応じて無機鉱物の充填剤を含むシートを製造するための組成物および方法。 シートを形成するのに適当な混合物は、所望の特性を有するシートを形成するための正しい比率で、水、未変性で糊化していない澱粉粒、セルロース系エーテル、繊維、および必要に応じて設けてもよい無機鉱物の充填剤を混合することにより調製される。 その混合物は、それらを1組以上の加熱されたローラーを通過させることによりシートへと成形されて、未乾燥のシートを形成する。 その加熱されたローラーが、セルロース系エーテルにシートの外側表面上に薄皮を形成させ、その薄皮は、澱粉のゲル化と同時に、澱粉粒がシートをそのローラーに接着させることを防止する。 その未乾燥のシートを加熱されたローラーの間を通過させて澱粉の細粒のゼラチン化し、および次に蒸発により水の大部分を除去することによりシートを乾燥させる。 澱粉およびセルロース系エーテルは、その結合するマトリックスの全体にわたって分散された繊維および必要に応じて設けてもよい無機充填剤を有するシートの結合マトリックスを形成する。 その澱粉で結合されたシートを、切断し、巻き、プレスし、穿孔し、折り畳み、および接着して、紙または板紙によく似たシートから物品を形成することができる。 そのシートは、食品および飲料の容器のような容器の大量生産に特に有用である。 | ||||||
| 43 | 적층 필름 및 필름 적층방법 | KR1020120139847 | 2012-12-04 | KR1020140072440A | 2014-06-13 | 방성환; 박경열; 손진열; 전정희; 신주희; 이상엽 |
| A laminate film and a film lamination method are disclosed. The laminate film includes two or more films sequentially laminated and adhered to each other, wherein each of the films being independently a stomach soluble film or an intestine soluble film. The laminate film can release stomach soluble and/or intestine soluble delivering substances in a specific pH condition by orally delivering. | ||||||
| 44 | 광학 물품 및 이의 제조 방법 | KR1020080122282 | 2008-12-04 | KR1020100026929A | 2010-03-10 | 조서용 |
| PURPOSE: Optical articles and a manufacturing method thereof are provided to increase a refractive index of the optical articles having nanoparticles by hardening the nanoparticles with liquid resin, and to inexpensive manufacture a large quantity of the nanoparticles. CONSTITUTION: Optical articles include a photo-permeability substrate and a TI/Sn containing nanoparticle. The nanoparticle includes one or more Ti- rich phases and one or more Sn-rich phases. The phase is arranged with an interconnected network-structure and/or isolated-structure, and a phase structure. The phase structure is a lamellar structure or a core shell structure. The Ti/Sn containing nanopartices include a compound indicated as (Ti_x,Sn_y)O2. | ||||||
| 45 | 미세다공성 절연체 | KR1020187017014 | 2016-12-15 | KR1020180081802A | 2018-07-17 | |
| 절연체및 중합체코팅된절연체가제공된다. 절연체는단열나노입자및 휘발온도에서휘발하도록구성된바인더를포함할수 있다. 절연체는또한다공성구조를형성하는무기단열재료를포함할수 있다. 다공성구조는절연체내의가스의평균자유경로를다공성구조외부의가스와비교하여감소시키도록구성될수 있다. 무기단열재료및 무기단열재료의표면상에배치된중합체코팅을포함하는중합체코팅된절연체가또한제공된다. 절연체는또한단열나노입자및 불투명체를포함할수 있다. 불투명체는탄소산화온도에서탄소질재료의산화를억제하는내화재료로코팅된탄소질재료를포함할수 있다. 절연체또는중합체코팅된절연체는장치내의배터리셀들또는배터리셀 블록들사이에배치될수 있다. | ||||||
| 46 | 적층 코어 및 시트 금속 부품을 연결하여 적층 코어를 형성하기 위한 방법 | KR1020157016593 | 2013-12-11 | KR1020150095700A | 2015-08-21 | 플루치,로날드 |
| 본 발명은 적층 코어(3) 및 시트 금속 부품(2)을 연결하여 적층 코어(3)를 형성하기 위한 방법에 관한 것으로, 상기 방법에 있어서 적어도 일부 영역에 경화성 폴리머 접착제층(8, 9)을 가진 시트 금속 스트립(5)으로부터 시트 금속 부품(2)을 분리하고, 서로 대면하는 접착제 코팅면을 가진 시트 금속 부품(2)을 쌓아 제공하고 가압 접착하여 적층 코어(3)를 형성한다. 본 발명에 따르면, 유리한 공정 조건을 조성하기 위해서 시트 금속 부품(2)의 접착시 서로 대면하는 접착제층(8, 9) 중 적어도 하나에 물과 열가소성 및/또는 가교성 접착 촉진제(15)를 포함하는 혼합물(14)을 제공한다. | ||||||
| 47 | 고정 보조물의 용도 | KR1020090040188 | 2009-05-08 | KR1020090117657A | 2009-11-12 | 하더,크리스티안; 뮐러,안네마리; 비르,게르하르트 |
| PURPOSE: A laminating composition is provided to form a pressure-sensitive tape which minimizes a tension stress peak during flying junction. CONSTITUTION: A laminating composition for manufacturing an adhesive tape containing a sheet-like carrier comprises at least polysaccharide component and a surfactant component. The polysaccharide component is present 98 wt% or less, particularly 85-95 wt%, more particularly 90-95 wt% based on total weight of the polysaccharide component and surfactant component. The polysaccharide component is starch derivatives, especially hydroxy propyl ether based on starch. The content of the surfactant is 2-20 weight%, preferably 5-15 weight%, more particularly 5-10 weight% based on the total weight of the polysaccharide and surfactant. | ||||||
| 48 | ACRYLIC POLYVINYL ACETAL FILMS COMPRISING A SECOND LAYER | EP16871763.5 | 2016-12-13 | EP3393799A2 | 2018-10-31 | JANOSKI, Jonathan E.; THOMAS, Carla S.; SCHULTZ, Anthony F.; WHITING, Tien Y. H.; LEWANDOWSKI, Kevin M.; FANSLER, Duane D.; LYON, Keith R.; WEIKEL, Arlin L.; HEBRINK, Timothy J.; HULKE, Amanda K.; SHOCKEY, Eric D.; RENSTROM, Anthony M.; MACKEY, Sonja S.; KLUN, Thomas P. |
| 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. | ||||||
| 49 | COMPOSITION FOR EXTRUSION-MOLDED BODIES | EP11717125.6 | 2011-04-19 | EP2563564B1 | 2016-11-02 | BAYER, Roland |
| 50 | LAMINATED FILM AND METHOD FOR LAMINATING FILMS | EP13859632 | 2013-07-22 | EP2930019A4 | 2016-08-03 | BANG SUNG HWAN; PARK KYUNG YEOL; SON JIN RYUL; JEON JYUNG HEE; SHIN JU HEE; LEE SANG YOUB |
| 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. | ||||||
| 51 | COMPOSITION FOR EXTRUSION-MOLDED BODIES | EP11717125.6 | 2011-04-19 | EP2563564A1 | 2013-03-06 | BAYER, Roland |
| 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. | ||||||
| 52 | MULTI-LAYER FILMS HAVING UNIFORM CONTENT | EP05803856.3 | 2005-09-28 | EP1799453B1 | 2012-09-05 | FUISZ, Richard, C.; FUISZ, Joseph, M.; MYERS, Garry, L. |
| 53 | Multi-layer films | EP10181665.0 | 2005-09-28 | EP2335921A1 | 2011-06-22 | Fuisz, Richard C.; Myers, Gary L.; Fuisz, Joseph M. |
The present invention relates to edible multi-layer films (10) that dissolve in water. In particular, the edible multi-layer films (10) have a first water-soluble film layer (10) and one or more additional water-soluble film layers (200) in at least partial face-to-face engagement with the first film layer (100). The film layers (100,200) include a polymer composition which contains polyethylene oxide alone or in combination with at least one water-soluble polymer. The edible multi-layer films (10) may include pockets defined between the layers that house an active component. Upon addition of water, the multi-layer film dissolves, thereby releasing the active component into the water.
|
||||||
| 54 | METHODS FOR MANUFACTURING MOLDED SHEETS HAVING A HIGH STARCH CONTENT | EP97922292.4 | 1997-04-09 | EP1007320A1 | 2000-06-14 | 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. | ||||||
| 55 | COMPOSITIONS HAVING A HIGH UNGELATINIZED CONTENT | EP97917916 | 1997-04-09 | EP0892716A4 | 2000-05-17 | ANDERSEN PER JUST; 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. | ||||||
| 56 | COMPOSITIONS HAVING A HIGH UNGELATINIZED CONTENT | EP97917916.0 | 1997-04-09 | EP0892716A1 | 1999-01-27 | 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 dipersed 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. | ||||||
| 57 | 農業フィルム用コーティング剤組成物及び農業用改質熱可塑性高分子フィルム | JP2017031097 | 2017-02-22 | JP2018134037A | 2018-08-30 | 潮谷 和史 |
| 【課題】農業用ハウスに張られた後において、初期の流滴性が良好であり、且つ長期間使用される間に農業用ハウスの骨材と繰り返し接触し、しかもかかる接触が乾燥状態と湿潤状態とが繰り返される状況下で行なわれた場合であっても良好な流滴性を維持することができる農業フィルム用コーティング剤組成物及びかかる組成物を用いた改質熱可塑性高分子フィルムを提供する。 【解決手段】農業フィルム用コーティング剤組成物として、無機コロイドゾルと、特定のセルロース誘導体と、水溶性架橋剤とを特定割合で含有して成るものを用いた。 【選択図】なし |
||||||
| 58 | 農業フィルム用コーティング剤組成物及び農業用改質熱可塑性高分子フィルム | JP2017031097 | 2017-02-22 | JP6348197B1 | 2018-06-27 | 潮谷 和史 |
| 【課題】農業用ハウスに張られた後において、初期の流滴性が良好であり、且つ長期間使用される間に農業用ハウスの骨材と繰り返し接触し、しかもかかる接触が乾燥状態と湿潤状態とが繰り返される状況下で行なわれた場合であっても良好な流滴性を維持することができる農業フィルム用コーティング剤組成物及びかかる組成物を用いた改質熱可塑性高分子フィルムを提供する。 【解決手段】農業フィルム用コーティング剤組成物として、無機コロイドゾルと、特定のセルロース誘導体と、水溶性架橋剤とを特定割合で含有して成るものを用いた。 【選択図】なし |
||||||
| 59 | 光学フィルムの製造方法 | JP2016561543 | 2015-11-19 | JPWO2016084718A1 | 2017-09-07 | 林 健司; 健司 林; 戸田 義朗; 義朗 戸田; 千葉 隆人; 隆人 千葉 |
| 本発明は、同時重層塗布を用いた、光学フィルムの塗布故障を低減させることができる製造方法を提供する。本発明は、基材上に、光学機能層が少なくとも2層以上形成されてなる光学フィルムの製造方法であって、動的粘弾性測定によって前記各光学機能層を形成する塗布液の損失弾性率を確認する損失弾性率確認工程と、基材上に、前記各光学機能層を形成する塗布液を同時重層塗布する塗布工程と、を有し、前記塗布工程において、前記各光学機能層を形成する塗布液の、下記式1で定義される損失弾性率の時間変化(ΔG”)が3.0以下のときに塗布を行う、光学フィルムの製造方法に関する。ΔG”=G”(60)−G”(0) (式1)(ここで、G”(60)は測定時間60分における損失弾性率の値を、G”(0)は測定時間0分における損失弾性率の値を表す。) | ||||||
| 60 | 成層鉄芯、及びシートメタル部材から成層鉄芯へ結合する方法 | JP2015545595 | 2013-12-11 | JP2016506313A | 2016-03-03 | フルーフ,ロナルド |
| 【課題】成層鉄芯(3)及びシートメタル部材(2)を成層鉄芯(3)へと結合する方法が示される。このシートメタル部材(2)は、硬化性の高分子接着剤層(8、9)を少なくとも部分的に備えたメタルストリップ(5)から分離され、互いの方を向いた、接着剤でコーティングされた側面が重なり合って備えられたシートメタル部材(2)が、圧力を下で材料結合によって成層鉄芯(3)へと結合される。有利な方法状況を作り出すために、シートメタル部材(2)の材料結合による結合において、互いの方を向いた接着剤層(8、9)の少なくとも1つが、水と、熱可塑性の及び/又は架橋性の結合剤(15)からなる混合物(14)を備えていることが提案される。【選択図】図1 | ||||||
QQ群二维码
意见反馈
意见反馈