序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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21 | Method of and apparatus for decorating sheet material and decorated outer cover of cigar | JP6568477 | 1977-06-03 | JPS5341500A | 1978-04-14 | ROBAATO AI SHINKUREA; FUREDERITSUKU DEII GOTSUDOFURI; JIYON JIEI FUEDORO |
22 | 断熱性の伸縮性ダウンフェザーシートおよびその製造方法 | JP2016563229 | 2014-11-19 | JP2017503693A | 2017-02-02 | ルーベン,ロニー |
断熱性の伸縮性ダウンフェザーシートと、その製造方法を説明する。当該シートのコアは、弾性特性を示すバインダーと混合されたダウンフェザーで構成される。当該コアは、多方向伸縮性を有する上部および底部の伸縮性エラストマーシートの間に挟持される。当該コアのダウンフェザーとバインダーとエラストマーシートは、シートを細分することなく全方向において伸縮性の羽毛絶縁シートを提供するために熱処理によって一緒に結合される。【選択図】図2 | ||||||
23 | Carrier for transporting the cells for transplantation sheet | JP2014512966 | 2013-08-26 | JP5596885B1 | 2014-09-24 | 登代次 日比; 浩司 加藤; 宏幸 新倉; 潤 渡邉; 正紀 小島 |
細胞シートを運搬するのに適した、密着性、剥離性に優れたキャリアを提供することを課題とする。 細胞非障害性の条件で応答可能な、細胞シート付着性の被覆層と、医療用材料として許容される基材からなる支持層とを備える、移植用細胞シートを運搬するためのキャリアを提供する。 キャリアの被覆層に付着している細胞シートを移植場所に適用し、そして細胞非障害性の条件にすることにより細胞シートを移植場所に維持しつつ、剥離除去することができる。 | ||||||
24 | Multi-layer base material for photography | JP19460981 | 1981-12-04 | JPS57120934A | 1982-07-28 | RAINAA ANTONZEN; BUIIRANTO ZATSUKU |
25 | SYSTEME POUR FORMER UN ELEMENT TEXTILE VEGETALISE | EP13704384.0 | 2013-02-01 | EP2809140A1 | 2014-12-10 | VANDERBECKEN, Vincent, André; SPEHAR, Christophe; BLANGILLE, Thomas, Stéphan, J. |
The present invention relates to a system for forming a vegetative textile element comprising a first impermeable layer (1) having a dorsal face and a frontal face, a second layer (2) comprising a synthetic felt endowed with a water-retaining capacity and having a dorsal face and a frontal face, said dorsal face of said second layer (2) facing said frontal face of said first impermeable layer (1) and a third layer (3) of synthetic polymer having openings and also a dorsal face and a frontal face, said dorsal face of said third layer (3) facing said frontal face of said second layer (2) comprising a synthetic felt. | ||||||
26 | NONWOVENS HAVING REDUCED POISSON RATIO | EP04811072.0 | 2004-11-15 | EP1715994A1 | 2006-11-02 | ANDERSON, Ralph, L.; VARONA, Eugenio, G.; GARNESKI, Charles, J.; TIRIMACCO, Maurizio; STAGE, Douglas, W.; BURAZIN, Mark; ZWICK, Kenneth, J. |
Nonwoven materials having a pattern incorporated into the materials are disclosed. The nonwoven materials may be, for instance, tissue webs, meltspun webs such as meltblown webs or spunbond webs, bonded carded webs, hydroentangled webs, and the like. The pattern may be incorporated into the webs using various techniques. For instance, the pattern may be formed into the web by topically applying a bonding material. In an alternative embodiment, the pattern may be formed according to a thermal bonding process. The pattern contains individual cells that include two spaced apart expanded regions separated by a constricted region. By incorporating the pattern into the web, a material is produced having a relatively low Poisson ratio. | ||||||
27 | SHEET TOBACCO AND METHOD AND SYSTEM FOR PRODUCING THE SAME | EP00935536.3 | 2000-06-02 | EP1208756A1 | 2002-05-29 | NAKANISHI, Yukio; OTA, Akinori; KAN, Katsuhiko; SHIMONO, Naohiko; KAWAI, Kiyotaka; MIYAKOSHI, Yoshisato, Japan Vilene Company, Ltd.; NARITA, Hiroaki, Japan Vilene Company, Ltd.; IIJIMA, Toshiki, Japan Vilene Company, Ltd.; HAGIWARA, Kouichi |
Sheet tobacco according to the present invention includes a carrier sheet made of nonwoven plant fibers, and a tobacco powder layer formed on the carrier sheet and containing a powder mixture of tobacco lamina powder and binder powder. In a sheet tobacco manufacturing process according to the present invention, a carrier sheet of plant fibers is formed by a nonwoven fabric production process, a tobacco powder layer is formed by spreading the powder mixture on the carrier sheet, and a cover sheet of plant fibers is optionally formed on the tobacco powder layer. Subsequently, the carrier sheet, the tobacco powder layer and the optical cover sheet are all together subjected to heating and pressing, thereby producing sheet tobacco with a two- or three-layer structure. The present invention also provides a manufacturing system for carrying out the sheet tobacco manufacturing process. |
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28 | THERMALLY INSULATING STRETCHABLE DOWN FEATHER SHEET AND METHOD OF FABRICATION | EP14877874 | 2014-11-19 | EP2941585B1 | 2017-06-21 | REUBEN RONIE |
29 | THERMALLY INSULATING STRETCHABLE DOWN FEATHER SHEET AND METHOD OF FABRICATION | EP14877874.9 | 2014-11-19 | EP2941585A1 | 2015-11-11 | REUBEN, Ronie |
A thermally insulating stretchable down feather sheet and its method of manufacture is described. The core of the sheet is comprised of down feathers mixed with a binder which exhibits elastic properties. The core is sandwiched between a top and bottom stretchable elastomeric sheet having multi¬ directional stretchability. The core down feathers and the binder as well as the elastomeric sheet and bound together by heat treatment to provide a down feather insulating sheet which is stretchable in all directions without fractioning the sheet. | ||||||
30 | Feuille décorative à base de matière thermoplastique | EP97204047.1 | 1997-12-19 | EP0857587A1 | 1998-08-12 | Antoine, Francis; Monguis, Jean-Pierre |
Feuille décorative comprenant un substrat (17,18,19) grainé à base de matière thermoplastique et au moins une matière de charge apparente, ainsi qu'un revêtement protecteur (20,21) superficiel substantiellement transparent à base de matière thermoplastique adjacent au substrat. De manière avantageuse, cette feuille est fabriquée au moyen d'un procédé dans lequel le revêtement protecteur comprend au moins deux couches et est appliquée sur le substrat par enduction-transfert. |
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31 | Carrier for carrying graft cell sheet | JP2012269747 | 2012-12-10 | JP2014113324A | 2014-06-26 | HIBI TOYOJI; KATO KOJI; NIIKURA HIROYUKI; WATANABE JUN; KOJIMA MASANORI |
PROBLEM TO BE SOLVED: To provide a carrier that is suitable to carry a cell sheet, and in which adhesion and detachability are excellent.SOLUTION: Provided is a carrier that includes: a coating layer in which answering can be performed by a cell non-hindrance condition, and cell sheet adhesion is possessed; and a support layer that comprises a substrate that is accepted as a medical material, and is for carrying a graft cell sheet. A cell sheet adhering to the coating layer of the carrier is applied to a graft place, and the cell non-hindrance condition is made, thereby the cell sheet is maintained at the graft place, and peeling and removal can be performed. | ||||||
32 | 高分子薄膜、高分子積層膜の製造方法、その製造方法で製造された高分子薄膜、および高分子積層膜 | JP2012545808 | 2011-11-25 | JPWO2012070658A1 | 2014-05-19 | 佑治 田中; 大和 雅之; 雅之 大和; 岡野 光夫; 光夫 岡野; 幸二 西田; 馬場 耕一; 耕一 馬場; 享 久保田; 透 朝日; 鉄馬 中川 |
機械的特性を向上することができる高分子積層膜を効率的に製造する製造方法およびその製造方法により製造された高分子積層膜を提供する。表面の一側2Aに高分子溶液3を載置した支持体1の前記表面に向かって遠心力を付加して、前記表面に前記高分子が配向した高分子層4を形成するステップと、前記高分子層4をインキュベートした後、乾燥して、高分子薄膜5を形成するステップと、前記支持体1の向きを変えて前記表面の他側6Aに高分子溶液3を載置した前記支持体1の前記表面に向かって遠心力を付加して、前記高分子薄膜5上に高分子が配向した他の高分子層7を形成するステップと、前記他の高分子層7をインキュベートした後、乾燥して、他の高分子薄膜8を形成するステップとを備える。 | ||||||
33 | Carrier for transporting the cells for transplantation sheet | JP2012269747 | 2012-12-10 | JP5320501B1 | 2013-10-23 | 登代次 日比; 浩司 加藤; 宏幸 新倉; 潤 渡邉; 正紀 小島 |
【課題】細胞シートを運搬するのに適した、密着性、剥離性に優れたキャリアを提供する。
【解決手段】 細胞非障害性の条件で応答可能な、細胞シート付着性の被覆層と、医療用材料として許容される基材からなる支持層とを備える、移植用細胞シートを運搬するためのキャリアを提供する。 キャリアの被覆層に付着している細胞シートを移植場所に適用し、そして細胞非障害性の条件にすることにより細胞シートを移植場所に維持しつつ、剥離除去することができる。 【選択図】なし |
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34 | JPH0121495B2 - | JP19460981 | 1981-12-04 | JPH0121495B2 | 1989-04-21 | RAINAA ANTONZEN; UIIRANTO ZATSUKU |
35 | Process for making pad for localized increase of friction | US15478192 | 2017-04-03 | US10016783B2 | 2018-07-10 | Joseph Mosher Hawkins, Jr. |
A method of making a friction pad comprising applying a soft bonding layer and a traction layer to a support sheet. The pad is easily exchangeable, non-fouling to its surroundings, and soft to bare skin. | ||||||
36 | BONE REGENERATION USING BIODEGRADABLE POLYMERIC NANOCOMPOSITE MATERIALS AND APPLICATIONS OF THE SAME | US15624425 | 2017-06-15 | US20170281829A1 | 2017-10-05 | Alexandru S. BIRIS |
A biocompatible structure includes one or more base structures for regeneration of different tissues. Each base structure includes alternately stacked polymer layers and spacer layers. The polymer layer includes a polymer and tissue forming nanoparticles. The polymer includes polyurethane. The tissue forming nanoparticles includes hydroxypatites (HAP) nanoparticles, polymeric nanoparticles, or nanofibers. The spacer layer includes bone particles, polymeric nanoparticles, or nanofibers. The weight percentage of tissue forming nanoparticles to the polymer in the polymer layer in one base structure is different from that in the other base structures. A method of producing the biocompatible structure includes forming multiple base structures stacked together, coating the stacked multiple base structures, and plasma treating the coated structure. | ||||||
37 | Method of fabricating a thermally insulating stretchable down feather sheet and the product therefrom | US14999493 | 2016-05-16 | US20160262556A1 | 2016-09-15 | Ronle Reuben |
A method of fabricating a thermally insulating stretchable down feather sheet is described. The core of the sheet is comprised of down mixed with a binder mixture which exhibits elastic properties. The binder mixture consists of heat fusible stretchable glue particles and heat fusible elastomeric binding strands in dry form. The core is sandwiched between a bottom and a top stretchable elastomeric sheet having multi-directional stretchability. The core of down and the binder as well as the elastomeric sheet are bound together by heat treatment to provide a down insulating sheet which is stretchable in all directions without fractioning the sheet and which is capable of recovering substantially its original relaxed form after stretching or deformation. | ||||||
38 | BONE REGENERATION USING BIODEGRADABLE POLYMERIC NANOCOMPOSITE MATERIALS AND APPLICATIONS OF THE SAME | US14509719 | 2014-10-08 | US20150039097A1 | 2015-02-05 | Alexandru S. Biris |
A biocompatible structure includes one or more base structures for regeneration of different tissues. Each base structure includes alternately stacked polymer layers and spacer layers. The polymer layer includes a polymer and tissue forming nanoparticles. The polymer includes polyurethane. The tissue forming nanoparticles includes hydroxypatites (HAP) nanoparticles, polymeric nanoparticles, or nanofibers. The spacer layer includes bone particles, polymeric nanoparticles, or nanofibers. The weight percentage of tissue forming nanoparticles to the polymer in the polymer layer in one base structure is different from that in the other base structures. A method of producing the biocompatible structure includes forming multiple base structures stacked together, coating the stacked multiple base structures, and plasma treating the coated structure. | ||||||
39 | System for Forming a Vegetative Textile Element | US14376367 | 2013-02-01 | US20140370238A1 | 2014-12-18 | Vincent André Vanderbecken; Christophe Spehar; Thomas Stéphan J. Blangille |
The present invention relates to a system for forming a vegetative textile element comprising a first impermeable layer having a back face and a front face, a second layer comprising a synthetic felt provided with a water retention capacity and having a back face and a front face, said back face of said second layer facing said front face of said first impermeable layer and a third layer of synthetic polymer having openings as well as a back face and a front face, said back face of said third layer facing said front face of said second layer comprising a synthetic felt. | ||||||
40 | MULTILAYER FILM | US14265906 | 2014-04-30 | US20140329103A1 | 2014-11-06 | Vadim ZAIKOV; Wen-Li (Adam) A. Chen |
A multilayer polyolefin film useful for packaging contains a core layer including from 20% to 100% by weight of the core layer of a polyethylene homopolymer having a density of between about 0.94 and about 0.97; an ethylene/alpha-olefin copolymer having a density of between about 0.94 and about 0.97; polypropylene; or a mixture thereof; from 0% to 80% by weight of the core layer of linear low density polyethylene, low density polyethylene, a copolymer of ethylene and vinyl acetate; or a mixture thereof; and a skin layer laminated to the core layer. The skin layer is a layer of linear low density polyethylene, low density polyethylene, a copolymer of ethylene and vinyl acetate; or a mixture thereof. At least one of the core layer and the skin layer includes at least 20% modern carbon. If desired, two skin layers may be laminated to opposing surfaces of the core layer. |