| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | Synthetic heat insulating material having a thin film with micropores | JP2006543911 | 2004-12-06 | JP2007515313A | 2007-06-14 | メイソン・ヴァネッサ; ルミエスズ・ジョセフ |
| 機能的な布層、透湿撥水性保温層及び孔ネットワークを有する高透湿性ミクロ孔のある薄膜層を含む保温パッケージ及び製造方法。 機能的な布、高透湿性保温層及びミクロ孔のある薄膜層は、防水透湿性保温パッケージを成形するために互いに積層される。 | ||||||
| 82 | 非多孔質体と多孔質体との溶着物 | JP2003559755 | 2003-01-09 | JPWO2003059611A1 | 2005-05-19 | 良暢 松浦; 誠一郎 友浦 |
| 本発明は、耐剥離性に優れた非多孔質体と多孔質体との溶着物を提供することを目的とする。本発明の溶着物は、非多孔質体と多孔質体とを含む積層物の一部を溶着してなる溶着物において、溶着部位の断面が非多孔質材料のみからなる層A、非多孔質材料と多孔質材料とが混在している複合材料層B、多孔質材料のみからなる層Cの、少なくとも3層からなり、複合材料層Bと多孔質材料層Cとの境界線長さLBCが、1.2mm〜2.5mmの範囲であることを特徴とする。 | ||||||
| 83 | The conductivity of the heat-shielding material | JP50715194 | 1992-09-18 | JP3017289B2 | 2000-03-06 | ディー. カラー,グレゴリー; エー. ストリート,ノーマン |
| 84 | Integrated board-like member and its manufacturing method | JP51234697 | 1996-07-17 | JPH11511406A | 1999-10-05 | ゲイアー,ヨセフ; ショク,フレドリッヒ,セン; パテルノスエル,ルドルフ; ブリンベック,ウォルター; ホック,クラス |
| (57)【要約】 露呈面および後面を有する一体ボード状部材、特に台所作業表面としての使用のための一体ボード状部材であって、露呈面は第一無機充填剤で充填されたポリマーマトリックスからなる層を含み、その比重はポリマーマトリックスの比重よりも大きく、露呈面層の充填剤含有率が50〜90体積%であり、後面は第二無機充填剤で充填されたポリマーマトリックスから形成された層を含み、この層のポリマーマトリックスの割合は露呈面層の中のポリマーマトリックスの体積含有率と、体積%で、最大で定量的に20%異なり、そして第二充填剤の比重が≦0.6g/cm 3である、良好な平面性を有するボード部材の単純な製造法が提案される。 | ||||||
| 85 | The conductivity of the heat-shielding material | JP50715194 | 1992-09-18 | JPH08500548A | 1996-01-23 | ディー. カラー,グレゴリー; エー. ストリート,ノーマン |
| (57)【要約】 その1つの表面上に導電性フィルムを有し、表面に薄いフィルム(通常はアルミニウム)を提供する多孔質延伸ポリテトラフルオロエチレンの薄い基材で作成した、柔軟で適合性が高い温度制御用被覆材料。 構造体の面積範囲の上のあちこちで、間隔を設けて複数の層を一緒に結合することによって多層構造を形成する。 この材料は軽量で強く、良好な断熱性と共に優れたドレープ性を有し、各々の層の平たい切り込みを曲げ戻すことによって生じた各々の層の導電性フィルムの接触によって導電性である。 | ||||||
| 86 | JPH028004Y2 - | JP14579580 | 1980-10-15 | JPH028004Y2 | 1990-02-26 | |
| A double-walled plate, of the cellular type, made of thermoplastics, transparent or opaque material, comprising two parallel walls (1, 2) spaced from each other by at least one partition, shaped so as to provide a series of sides (3) inclined with respect to the planes of the opposing walls (1, 2), the inclined sides of the partition defining a series of adjacent cells (5, 6, 7, 8) of substantially three sided transversal cross-section. The partition may be of zig-zag configuration wherein the sides thereof have a constant angular inclination of 30 DEG to 60 DEG with respect to the planes of the opposing walls, or alternatively may consist of arched surfaces facing one of the opposing walls and having a radius of one to two times the total thickness of the plate. |
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| 87 | Structure panel having corrugated core structure and manufacture thereof | JP11841288 | 1988-05-17 | JPS644330A | 1989-01-09 | HAAMAN FUREDERITSUKU NIIDO |
| PURPOSE: To fabricate an expanded structural panel which is light but strong for bending by coating one side of plastic sheets with spaced apart stripes of thermoplastic material, placing two sheets having their striped faces oriented towards one another. CONSTITUTION: One side of the sheet 5, desirably made of plastic compound reinforced by glass fiber, is coated or silk-screen printed with spaced apart stripes 7 of material to which hot thermoplastic adheres poorly. Two sheets 5, 9 having their striped faces oriented towards one another are positioned above and beneath a third thermoplastic sheet 11. The centerlines of the spaces between the stripes on one sheet are positioned opposite the centerline of the stripes on the other sheet, with the stripes being wider than the opposing spaces. | ||||||
| 88 | JPS5943592B2 - | JP10470882 | 1982-06-19 | JPS5943592B2 | 1984-10-23 | JOON JII TEIROTSUTOSON |
| 89 | JPS5611041B2 - | JP12531474 | 1974-10-30 | JPS5611041B2 | 1981-03-12 | |
| 90 | Laminate structure for furniture * comprising decorative later combined with supporting material | JP5622279 | 1979-05-08 | JPS54146875A | 1979-11-16 | PIEERU JIYORURETSUTO; RUNE BUTEIYU |
| 91 | Laminated film, electron element, printed circuit board and display device | US15369185 | 2016-12-05 | US10151944B2 | 2018-12-11 | Motoyumi Taguchi |
| According to one embodiment, a laminated film includes a first adhesive layer, a first insulating layer which faces the first adhesive layer, a first metal layer which is located between the first adhesive layer and the first insulating layer, and a first porous layer which is located between the first adhesive layer and the first insulating layer and faces the first metal layer. | ||||||
| 92 | Bi-Oriented, Cavitated, Linear, Low-Density Films with Good Sealing Properties | US15991110 | 2018-05-29 | US20180272671A1 | 2018-09-27 | Benoît Ambroise |
| Disclosed are methods, compositions, structures and uses for a biaxially oriented, multilayered film that may include a core layer comprising LLDPE, such as mLLDPE, wherein the core layer is flanked by a first skin layer and a second skin layer. This same type (e.g., melting index, density, and/or melting peak) of LLDPE, or different type(s) or blends thereof may be in the first skin layer and/or the second skin layer, wherein the first skin layer is located on a first side of the core layer, and the second skin layer is located on a second of the core layer, wherein the first side is on an opposite side of the core layer as compared to the second side. The biaxially oriented, multilayered film may have a sealing strength of at least 400 g/cm at 100° C. under a pressure of 41 N/cm2 at a dwell time of 0.75 s. | ||||||
| 93 | Thermal protection system and related compositions of matter | US15230900 | 2016-08-08 | US10076153B2 | 2018-09-18 | Dena Garner; Henry D. Cross, III |
| A thermal protection system is disclosed herein. In various aspects, the thermal protection system includes an insert. The insert may include a first layer and a second layer bonded to one another. The insert may be removeably receivable within a cavity of a shoe to form a thermally insulating barrier between a plantar surface of a user's foot and a sole of the shoe with a side of the first layer oriented toward the sole and a side of the second layer oriented toward the plantar surface. The first layer may include an aerogel and the second layer may include a meta aramid polymer, in various aspects. Related compositions of matter disclosed herein, in various aspects, include a plurality of layers bonded to one another in the form of an insert removeably receivable within a cavity of a shoe to create a thermal barrier between a sole of the shoe and a plantar surface of a foot of a user. This Abstract is presented to meet requirements of 37 C.F.R. § 1.72(b) only, and is not intended to identify key elements of the apparatus, methods, and compositions of matter disclosed herein or to delineate the scope thereof. | ||||||
| 94 | Articles including expanded polytetrafluoroethylene membranes with serpentine fibrils having a discontinuous fluoropolymer layer thereon | US15341467 | 2016-11-02 | US09987395B2 | 2018-06-05 | Larry J Kovach; Rachel Radspinner |
| Articles comprising an expanded polytetrafluoroethylene membrane having serpentine fibrils and having a discontinuous coating of a fluoropolymer thereon are provided. The fluoropolymer may be located at least partially in the pores of the expanded fluoropolymer membrane. In exemplary embodiments, the fluoropolymer is fluorinated ethylene propylene. The application of a tensile force at least partially straightens the serpentine fibrils, thereby elongating the article. The expanded polytetrafluoroethylene membrane may include a microstructure of substantially only fibrils. The articles can be elongated to a predetermined point at which further elongation is inhibited by a dramatic increase in stiffness. In one embodiment, the articles are used to form a covered stent device that requires little force to distend in the radial direction to a first diameter but is highly resistant to further distension to a second diameter (stop point). A large increase in diameter can advantageously be achieved prior to reaching the stop point. | ||||||
| 95 | INTERPENETRATING PHASE COMPOSITE STRUCTURES INCLUDING TRIPLY PERIODIC MINIMAL SURFACES AND METHODS OF FORMING THE SAME | US15819277 | 2017-11-21 | US20180117872A1 | 2018-05-03 | Rashid Abu Al-Rub; Oraib Al-Ketan |
| Interpenetrating phase composite (IPC) structures including triply periodic minimal surfaces and methods of forming the IPC structures are provided. The IPC structures may include unit cells connected to each other and arranged in three-dimensions. Each of the unit cells may include an IPC that consists of a first portion having a first volume and a second portion having a second volume. The first portion of the IPC may be substantially filled with a reinforcing material. A surface of the reinforcing material facing the second portion of the IPC may be a triply periodic minimal surface. A first one of the unit cells has a first ratio of the first volume to the second volume, a second one of the unit cells has a second ratio of the first volume to the second volume, and the first ratio and the second ratio may be different from each other. | ||||||
| 96 | PROCESS FOR MANUFACTURING AN ACOUSTIC PANEL REINFORCED BY AT LEAST ONE THERMOPLASTIC COMPOSITE LAYER | US15721017 | 2017-09-29 | US20180096673A1 | 2018-04-05 | Florian Ravise; Hassan Menay |
| A process for manufacturing an acoustic panel including at least one acoustically resistive layer, at least one cellular structure and a reflective wall. The process includes steps of depositing the parts of the acoustic panel made of thermosetting composite, depositing a film made of thermoplastic resin that is miscible with the thermosetting composite at the polymerization temperature of the thermosetting composite, polymerizing the parts of the acoustic panel made of thermosetting composite, and depositing and consolidating at least one layer made of thermoplastic composite against the film made of thermoplastic resin in order to form the reflective wall. | ||||||
| 97 | ATTACHMENT TAGS AND METHODS OF MANUFACTURE AND USE THEREOF | US15730191 | 2017-10-11 | US20180029753A1 | 2018-02-01 | Colin M. O'Donnell; Curtis J. Heinrichs; Jeffrey Tschetter; Mike Schultz; David Schiller |
| A method for using an attachment tag with a product includes affixing an adhesive layer of the attachment tag to the product. The attachment tag includes an elastomer portion and a tag portion bonded to the elastomer portion along a bond zone, wherein the adhesive layer is disposed on the tag portion. The method also includes expanding the elastomer portion by at least partially separating at least two of a plurality of leg segments of the elastomer portion and securing the expanded elastomer portion around at least a portion of the product. | ||||||
| 98 | POLYOLEFIN MICROPOROUS MEMBRANE | US15628348 | 2017-06-20 | US20170288195A1 | 2017-10-05 | Masahiro OHASHI; Hiroshi SOGO |
| Disclosed is a polyolefin microporous membrane including a multilayer film having two or more layers. In this polyolefin microporous membrane, at least one surface layer has a thickness of not less than 0.2 μm but not more than 5 μm and contains inorganic particles, while at least one layer contains a polyethylene and has an air permeability of not less than 50 second/100 cc but not more than 1000 second/100 cc and a puncture strength of not less than 3.0 N/20 μm. | ||||||
| 99 | GRAPHITE MATERIAL AND PRODUCTION METHOD THEREOF | US15458947 | 2017-03-14 | US20170275515A1 | 2017-09-28 | ATSUSHI TANAKA; NAOMI NISHIKI; HIDETOSHI KITAURA; KIMIAKI NAKAYA |
| A graphite material has a flexible part and can be utilized as a heat-conveying material in a narrow space. The graphite material, includes: at least one heat-conveying part; and a flexible part. A method for producing a graphite material, includes: (i) subjecting at least one film serving as a material to a heat treatment to obtain at least one carbonaceous film; (ii) providing a monolayer or multilayer structure including the at least one carbonaceous film; and (iii) applying heat and pressure to at least one part of the monolayer or multilayer structure in an inert atmosphere. | ||||||
| 100 | Fuel containment autonomous self-sealing system | US14516334 | 2014-10-16 | US09770883B1 | 2017-09-26 | Harry R Luzetsky; Kyle Bates |
| A seal-healing material that is used to form fuel tanks and other fuel containing items uses a pair of reagents disposed within multiple individual cells on either side of a polymer film with other polymer films forming the outer boundaries of each set of cells. The reagents, when mixed, chemically react to form a sealant. An elastomeric sheet is bound to each polymer film such that a fibrous material is disposed between each polymeric film and elastomeric film. | ||||||
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