子分类:
| 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 | MOBILE TERMINAL BOOTH (As Amended) | US14906167 | 2014-07-24 | US20160160498A1 | 2016-06-09 | Shigeki UETABIRA |
| A mobile terminal booth which provides an area where a mobile terminal can be used in a public place. This mobile terminal booth is provided with a sound absorbing unit which is placed in a public place and partially partitions a space as viewed from the above where a user of a mobile terminal can have a telephone conversation. The sound absorbing unit is made of a laminate consisting of a plurality of sound absorbing layers. The sound absorbing layers are joined together in the form of the laminate with a viscous adhesive which does not solidify after formation of said laminate, and maintains its viscosity when the mobile terminal booth is used. | ||||||
| 82 | SOUND DAMPING SYSTEM | US14556309 | 2014-12-01 | US20160153187A1 | 2016-06-02 | Umesh C. Desai; Ion Pelinescu; Tien-Chieh Chao |
| A laminated panel is disclosed that includes a first layer having an internal surface and an external surface, a second layer having an internal surface and an external surface, and a glue layer extending therebetween. The glue layer is produced from an aqueous dispersion of polymeric acrylic microparticles. | ||||||
| 83 | NONWOVEN INTERLAYERS MADE USING POLYMER-NANOPARTICLE POLYMERS | US14243642 | 2014-04-02 | US20150283788A1 | 2015-10-08 | Thomas K. TSOTSIS |
| A method of manufacturing a composite structure is provided. The method includes positioning a polymer-nanoparticle-enhanced interlayer adjacent to a first fiber layer. The polymer-nanoparticle-enhanced interlayer comprises at least one polymer and derivatized nanoparticles included in the molecular backbone of the at least one polymer, wherein the nanoparticles are derivatized to include functional groups. The method further includes positioning a second fiber layer adjacent to the polymer-nanoparticle-enhanced interlayer attached to the first fiber layer. The first fiber layer and the second fiber layer are infused with resin. The resin is cured to harden the composite structure. | ||||||
| 84 | MOLDED PRODUCT HAVING HOLLOW STRUCTURE AND PROCESS FOR PRODUCING SAME | US14440815 | 2013-12-11 | US20150266260A1 | 2015-09-24 | Takashi Fujioka; Atsuki Tsuchiya |
| A molded product and a unified molded product that are lightweight and also high in rigidity to meet the requirements from the market can be produced from a molded product comprising: a first member (I) containing a planar surface layer part and a protruding core part, and a second member (II) unified therewith, the first member (I) being of a fiber-reinforced resin (A) formed mainly of a reinforcing fiber (a1) and a matrix resin (a2), part of the threads of the reinforcing fiber (a1) extending penetratingly between the surface layer part and the core part, the part of the threads of the reinforcing fiber (a1) extending penetratingly at a rate of 400 threads/mm2 or more through the boundary surface between the surface layer part and the core part, the reinforcing fiber (a1) having a number-average fiber length Ln of 1 mm or more, and the core part forming a hollow structure. | ||||||
| 85 | Systems and methods for producing a tilewave fabric | US12860687 | 2010-08-20 | US08389093B2 | 2013-03-05 | Jason Harold Collins |
| One example embodiment includes a tilewave material. The tilewave material includes a fiber and a first tile, where the first tile includes a first surface and a second surface. The tilewave material also includes a second tile, where the second tile includes a first surface and a second surface. The tilewave material further includes a first attachment means, where the first attachment means attaches the first tile to the fiber, and a second attachment means, where the second attachment means attaches the second tile to the first fiber. | ||||||
| 86 | Burnthrough Protection System | US13299381 | 2011-11-18 | US20120273618A1 | 2012-11-01 | Joseph A. Fernando; Chad E. Garvey; Robert Rioux; Kenneth B. Miller |
| A burnthrough protection system including a fire protection laminate and a foam insulation material, wherein the fire protection laminate includes a fire barrier layer and a buffer layer, the buffer layer being disposed between the fire-barrier layer and the foam insulation material, wherein the buffer layer is adapted to prevent adhesion between the fire barrier layer and the foam insulation at elevated temperature. The burnthrough protection system may be capable of passing the flame propagation and burnthrough resistance test protocols of 14 C.F.R. §25.856(a) and (b), Appendix F, Parts VI and VII. Also, an aircraft including an exterior skin, an interior liner, and the burnthrough protection system disposed between the exterior skin and the interior liner. | ||||||
| 87 | Duct wrap and method for fire protecting a duct | US11057277 | 2005-02-11 | US08178177B2 | 2012-05-15 | George W. Frost; John T. Brady; Brandon L. Cordts |
| An article for fire protecting a duct includes a first layer of a first material including a noncombustible fibrous material and a second layer of a second material including an intumescent material. The first layer is adjacent the second layer. The article is non-self-supporting and has an initial thickness of less than about three inches when in a first application condition, and an expanded thickness when in a second heated condition. The expanded thickness is greater than the initial thickness. At the expanded thickness, the article meets Section 5.5 of AC101 Acceptance Criteria for Grease Duct Enclosure Assemblies, as specified in April 2001 by the International Council of Building Officials (ICBO-ES). | ||||||
| 88 | PRESSURE-SENSITIVE ADHESIVE AND PRODUCTS | US12651546 | 2010-01-04 | US20110165377A1 | 2011-07-07 | Jesse Alvin Binkley |
| An asphalt base pressure-sensitive adhesive includes asphalt, an elastomer, residual pitch, as well as isoflour and optional oil and other inert fillers. The amount of elastomer is reduced by incorporating the residual pitch product which acts as an extender of the elastomer. Further, the isoflour further acts as an extender, and is compatible with the residual pitch. In a preferred embodiment, the pitch product is pine pitch. | ||||||
| 89 | Vaccum Insulation Panal And Insulation Structure Of Refrigerator Using The Same | US12092236 | 2006-11-14 | US20080280090A1 | 2008-11-13 | Kyung-Do Kim; Dong-Ju Jung; Young-Bae Kim |
| Disclosed are a vacuum insulation panel and an insulation structure of a refrigerator using the same. The vacuum insulation panel comprises a core material formed by gather glass fiber, a getter having a container to receive an absorbent having quicklime of 90 wt % or greater as a main component, and a sealing cover formed to surround the core material and the getter. The core material can be formed at low cost in such a manner that glass fiber is tangled and gathered by penetrating glass wool having glass fiber using a needle. Since the getter is made of quicklime that can first remove water corresponding to a main component of the absorbent, the getter can be manufactured at low cost and has improved insulation efficiency. | ||||||
| 90 | Carbon-containing hard coating and a method for depositing a hard coating onto a substrate | US11077225 | 2005-03-09 | US07357975B2 | 2008-04-15 | Joerg Vetter |
| The carbon-containing hard coating (1) according to the invention comprises nano-crystalline grains being separated from each other by grain boundaries, wherein said hard coating comprises aluminum (Al), at least one additional metal (Me1, Me2), carbon (C) and at least one further element (E1, E2) and has the chemical composition: (AlxMe1yMe2z)CuE1vE2w wherein Me1 is a metal, and Me2 is a metal, with x>0.4 and x+y+z=1 and y,z≧0, and E1 and E2 are further chemical elements with 1>u>0 and u+v+w=1 and v,w≧0. The grain boundaries have a higher concentration of carbon atoms than the nano-crystalline grains. | ||||||
| 91 | Carbon containing and a method for depositing a hard coat onto a substrate | US11077225 | 2005-03-09 | US20050201921A1 | 2005-09-15 | Jorg Vetter |
| The carbon containing hard coating (1) according to the invention comprises nano-crystalline grains being separated from each other by grain boundaries, wherein said hard coating comprises aluminium (Al), at least one additional metal (Me1, Me2), carbon (C) and at least one further element (E1, E2) and has the chemical composition: (AlxMe1yMe2z)CuE1vE2w wherein Me1 is a metal, and Me2 is a metal, with x>0.4 and x+y+z=1 and y,z≧0, and E1 and E2 are further chemical elements with 1>u>0 and u+v+w=1 and v,w≧0. The grain-boundaries have a higher concentration of carbon atoms than the nano-crystalline-grains. | ||||||
| 92 | Insulating tape for the winding of an electric machine | US387939 | 1995-02-27 | US5674340A | 1997-10-07 | Gernot Swiatkowski; Irene Olbrich |
| An insulating tape for the winding of an electric machine, in particular a rotary machine, may include an electric breakdown-resistant material, such as mica, of a support material, such as glass silk, and a thermoplastic adhesive for holding together the insulating tape. The adhesive may be a thermoplastic material having a continued use temperature at least one insulation class lower than the insulation class provided for the winding. The machine insulation has the required mechanical and electric stability after the winding insulation is impregnated with a hardenable resin. | ||||||
| 93 | High pressure laminate for access floor panels | US296498 | 1981-08-26 | US4390580A | 1983-06-28 | William J. Donovan, deceased; by A. Gerard Coppola, executor; William D. Sanford |
| A high pressure laminate (HPL) is disclosed for use on an access floor panel. The HPL is comprised of a rigid, moisture, impervious melamine plastic layer laminated under high pressure and heat to a substrate layer comprised of a resin paper element of multiple sheets of phenolic resin impregnated kraft paper. This resin paper element has at least one groove in it, wherein material has been removed to a depth sufficient to sever enough paper sheet grain lines of the resin paper element so that, after the HPL has been adhesively bonded to the HPL receiving surface of an access floor panel, vertical expansion or contraction of the resin paper element will note elongate the bond line in the area from the edge of the HPL to the groove that creates the pivot or hinge line. An access floor panel is also disclosed. | ||||||
| 94 | Abrasive bodies | US882808 | 1978-02-28 | US4229186A | 1980-10-21 | William I. Wilson |
| A laminated abrasive body which is in effect a thick compact comprising a plurality of diamond or cubic boron nitride compacts laminated together, joining of adjacent compacts taking place by means of a layer of a metal or metal alloy braze and the thickness of the laminate exceeding 5 mm and the longest dimension of the body transverse to the thickness exceeding 2 mm. The invention also covers methods of making such laminated bodies by forming alternate layers of braze and compact or compact-forming material and then forming the laminate under elevated temperature and pressure. | ||||||
| 95 | 断熱材用複合材料のための接着剤としてのフォーム | JP2018504636 | 2016-07-06 | JP2018527220A | 2018-09-20 | グプタ,アノープ; トゥルシンスカス,サルナス; アルプレヒト,ゲルハルト; ギュンター,エファ; ヴァイス,サムエル; クチュエラ,ミヒャエル; シェファー,ルッツ |
| 本発明は、少なくとも、層(L1)、(L2)及び(LB)を含む断熱材用の複合材料を製造するための方法であって、25〜95質量%のエアロゲル、及び5〜75質量%のファイバー、及び0〜70質量%の充てん材を含む層(L1)、及び25〜95質量%のエアロゲル、及び5〜75質量%のファイバー、及び0〜70質量%の充てん材を含む層(L2)、を準備する工程; 層(L1)又は層(L2)、又は層(L1)及び(L2)の所定の表面に、無機バインダーを含む組成物(C1)を付ける工程、及び層(L1)及び(L2)を、組成物(C1)が層(L1)と(L2)の間に配置されるように結合させる工程、を含み、組成物(C1)がフォームの状態で付けられる方法、及び少なくとも、層(L1)、(L2)及び層(L1)と層(L2)の間に配置された層(LB)を含む断熱材用の複合材料、及び上記複合材料を断熱のために使用する方法に関する。 |
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| 96 | 粘着シート及び粘着シートの製造方法 | JP2014076576 | 2014-04-02 | JP6291322B2 | 2018-03-14 | 上村 和恵; 加藤 揮一郎; 齋藤 慈; 網野 由美子; 城戸 政倫; 西岡 晋司; 岸 将人 |
| 97 | 多層フィルム | JP2017531591 | 2014-12-10 | JP2018500211A | 2018-01-11 | トーマス エドワード カーニー; クリストファー ロバート ベックス; ジェフリー マイケル バートリン |
| 本開示は、30未満のL*色および10未満の60度光沢値を有する多層フィルムに関する。多層フィルムは、第1のポリイミド層および第2のポリイミド層を有する。第2のポリイミド層は、25〜50重量%のポリイミド、15〜35重量%のポリイミド粒子艶消し剤、0重量%より多く、かつ20重量%未満の少なくとも1種のサブミクロンカーボンブラック、および15〜50重量%の少なくとも1種のサブミクロンヒュームド金属酸化物を有する。 | ||||||
| 98 | 高いZ方向電気伝導率をもつ複合材料 | JP2017515720 | 2015-09-21 | JP2017535447A | 2017-11-30 | カルメロ ルカ レストゥッシア,; フィオレンツォ レンツィ,; マーク ボノー,; ジョサンレット ビジェガス,; エミリアーノ フルッローニ, |
| 高いz方向電気伝導率を有する硬化性複合材料。硬化性複合材料には、硬化性マトリックス樹脂を注入又は含浸させた強化用炭素繊維の2つ以上の層と、少なくとも伝導性ナノサイズ粒子、例えばカーボンナノチューブ、及び軽量の炭素ベールを含有する層間領域が含まれる。別の実施態様によれば、層間領域は、ポリマー強化粒子をさらに含有する。複合材料及び構造を製作するための方法も開示される。【選択図】図3 | ||||||
| 99 | 食品パッケージ | JP2015532246 | 2013-09-13 | JP6216381B2 | 2017-10-18 | モリス、ブレンダン、リー; ジャッカ、デイビッド、コリン |
| 100 | 多層フィルム | JP2016539079 | 2014-12-10 | JP2017508637A | 2017-03-30 | エドワード カーニー トーマス; マイケル バートリン ジェフリー; ロバート ベックス クリストファー |
| 本開示は、30未満のL*色および10未満の60度光沢値を有する多層フィルムに関する。多層フィルムは、第1のポリイミド層および第2のポリイミド層を有する。第2のポリイミド層は、45〜67重量%のポリイミド、14重量%より多い、シリカ艶消し剤、またはシリカ艶消し剤と少なくとも1種の追加的な艶消し剤との混合物、および少なくとも1種のサブミクロンカーボンブラックであって、サブミクロンカーボンブラックとポリイミドとの総量が85重量%未満であり、かつ45重量%より多い、少なくとも1種のサブミクロンカーボンブラックを有する。 | ||||||
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