| 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 | ENTANGLED NET PRODUCT WITH CRUMB | US14859689 | 2015-09-21 | US20160090745A1 | 2016-03-31 | Kenneth A. Roy |
| An entangled net having a crumb dispersed therein may be used as a sound deadening material in a flooring system. The crumb may be adhered to said entangled net. The entangled net may include a first barrier layer affixed to an upper surface of said entangled net and/or a second barrier layer affixed to a lower surface of said entangled net. The crumb may be selected from the group consisting of: rubber; foam; natural elastic materials; synthetic elastic materials; fibers; and combinations thereof. The method of use and manufacture are also disclosed. | ||||||
| 42 | POLYETHYLENE-BASED RESIN FOAM SHEET | US14425135 | 2013-08-23 | US20150224745A1 | 2015-08-13 | Kazuhiko Morita; Hirotoshi Kakuta; Ryuichi Taniguchi |
| A polyethylene-based resin foam sheet with density of 15 to 150 kg/m3, including a foam layer containing, as a base resin, polyethylene-based resin, and antistatic layer which is lamination bonded to at least one side of the foam layer containing a polymeric antistatic agent and, as base resin, polyethylene-based resin, wherein polymeric antistatic agent melting point of 125 to 140° C. and ratio of its partial heat of fusion in a region above melting point to its total heat of fusion of 40% or lower, wherein antistatic layer contains the polymeric antistatic agent of 45 to 300 parts by mass based on 100 parts by mass of the polyethylene-based resin constituting the antistatic layer, wherein antistatic layer has a weight of 1 to 50 g/m2, and antistatic layer shows initial electrostatic potential of 50 V or lower when a voltage of 10 kV is applied to a surface for 30 seconds. | ||||||
| 43 | COMPOSITE POLYURETHANE FOAM | US13775575 | 2013-02-25 | US20130245143A1 | 2013-09-19 | David S. Soane |
| The invention encompasses compositions and methods for the preparation thereof, wherein the composition comprises a polymeric foam that comprise a plurality of polymeric struts having an air-foam interface, wherein a composition comprising inorganic particulate matter is disposed upon the air-foam interface, the inorganic particulate material comprising inorganic particles coated with a hydrophobic amine modifier. | ||||||
| 44 | 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. | ||||||
| 45 | Method for Forming a Crimping Fold in a Multi-Layer Composite Material and Multi-Layer Composite Material Having at Least One Crimping Fold | US12990888 | 2009-04-28 | US20110123780A1 | 2011-05-26 | Thorsten Börger; Erik Hilfrich; Oliver Kleinschmidt |
| A method for forming a beading fold in a multi-layer composite material, which has at least one core layer made of a plastics material and at least two cover layers made of a metallic material, provides high process reliability and optimal integrity of the formed multi-layer composite material. In particular, the method provides that, in the region of the beading fold to be formed, the core layer of the composite material is heated at least in portions to a temperature of 180° C. to 300° C. Also described herein is a multi-layer composite material having at least one beading fold, said material comprising at least one core layer made of a plastics material and at least two cover layers made of a metallic material. | ||||||
| 46 | Microperforated Metal Foil | US11956441 | 2007-12-14 | US20090274924A1 | 2009-11-05 | Marc PELZER; Stefan JANZEN |
| The invention relates to a microperforated metal foil and to a process for the preparation thereof which is characterized in that a self-supporting metal foil is perforated with a needle-punching machine. | ||||||
| 47 | 難燃性ラミネート | JP2017523889 | 2015-10-12 | JP2018500197A | 2018-01-11 | ジョセフ ブイ.クリアン |
| テキスタイル層、保護層及び難燃剤を含む難燃性ラミネートを提供する。保護層は多孔性膜及びコーティング層を含む。多孔性膜はテキスタイル層とコーティング層との間に配置される。難燃剤は一般式(I)(式中、n=0又は1であり、R1及びR2はC1〜C4アルキルであり、R3はH又はC1〜C4アルキルであり、そしてR4は直鎖又は枝分かれアルキルである)の1種以上のホスホン酸エステルを含む。難燃性ラミネート中のホスホン酸エステルの少なくとも一部はコーティング層中に存在する。難燃性ラミネートは保護衣服における使用に適し、該保護衣服は石油、油及び潤滑剤などの可燃性材料への暴露の後でも完全な引火及び火傷保護性を提供する。難燃性ラミネートに難燃性を付与する方法も提供される。【選択図】図2 | ||||||
| 48 | 断熱充填材料のためのバッフル構築体 | JP2016559542 | 2016-02-29 | JP2017518443A | 2017-07-06 | テイラー マッシー ライアン; マイケル オルソン コリー |
| 本発明の主題は、概して、衣類およびスリーピングバッグなどのような消費者製品において使用するための形状決めされたバッフル構築体に関する。特定の態様では、形状決めされたバッフルは、バッフルのマルチレベルの構築物の中に配置されており、バッフルは、2つ以上のレベルの中でオフセットされている。特定の態様では、構築体全体は、単一の織られたシームレスの構築物である。 | ||||||
| 49 | 多層熱可塑性エラストマー発泡材料及びその製造方法 | JP2016065823 | 2016-03-29 | JP2016193599A | 2016-11-17 | 李 永騰 |
| 【課題】特定の配合を有し、層間では粘着したり、発泡後さらに熱圧着を行ったりすることなく、緻密に貼り合せることができる多層熱可塑性エラストマー(TPE)発泡材料の提供。 【解決手段】層間に接着層又は中間層を有することなく、ソフトブロック熱可塑性エラストマーマトリックスと、ハードブロック熱可塑性エラストマーマトリックスと、架橋剤と、発泡剤とを含む組成物を発泡させてなり層間の引裂強度が0.5kgf/25mm以上、好ましくは1.0kgf/25mm以上の剥離強度に達することができる多層熱可塑性エラストマー。30kg/cm3以上の密度、2kgf/m3以上の引張強度及び50%以上の伸び率を有することが望ましい多層熱可塑性エラストマー。 【選択図】図1 |
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| 50 | ポリエチレン系樹脂発泡シート | JP2014535360 | 2013-08-23 | JPWO2014041750A1 | 2016-08-12 | 森田 和彦; 和彦 森田; 角田 博俊; 博俊 角田; 隆一 谷口 |
| 柔軟性と緩衝性を備え、静電気散逸性を有する発泡シートを提供する。低密度ポリエチレンを含むポリエチレン系樹脂を基材樹脂とする発泡層の片面又は両面に、低密度ポリエチレンを含むポリエチレン系樹脂を基材樹脂とし高分子型帯電防止剤を含む帯電防止層が積層接着されてなる、見掛け密度15〜150kg/m3の発泡シートにおいて、高分子型帯電防止剤の融点125〜140℃、かつその全融解熱量に対する融点以上の部分の部分融解熱量の比が40%以下、高分子型帯電防止剤の配合量が、ポリエチレン系樹脂100質量部に対して45〜300質量部で、帯電防止層の坪量が1〜50g/m2で、帯電防止層面に10kVの印加を30秒間行ったときの初期帯電圧が50V以下である、発泡シート。 | ||||||
| 51 | 成形用織物の製造方法及び繊維成形品並びに複合物品 | JP2014154289 | 2014-07-29 | JP2015063784A | 2015-04-09 | 國貞 秀明; 鹿島 寛貴 |
| 【課題】成形用織物の製造方法並びにこの方法により製造された成形用織物を用いた繊維成形品及び複合物品を提供する。 【解決手段】高配向未延伸糸を、(a)定長を保ちながらの熱処理後、又は(b)弛緩熱処理後、染色して染色糸とし、更に染色糸を製織する成形用織物の製造方法であって、熱処理した後の加工糸を沸水処理した沸水処理糸の長さをL1とし、沸水処理糸を180℃で乾熱処理した乾熱処理糸の長さをL2としたときに、[(L2−L1)/L1]×100(%)で算出される伸長率が6%以下である。また、この製造方法により製造された成形用織物を成型してなる繊維成形品であって、用いる成形用織物は、残留伸度が80%以上の染色糸のみにより製織されている。染色糸は、染色されたポリエチレンテレフタレート糸であることが好ましい。 【選択図】図1 |
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| 52 | 多層複合材料にビーディング折り目を形成する方法及び少なくとも1つのビーディング折り目を有する多層複合材料 | JP2011507872 | 2009-04-28 | JP5636360B2 | 2014-12-03 | ベガー トルステン; ヒルフリヒ エリク; クラインシュミット オリバー |
| 53 | Production method of polyurethane molded article | JP2005182010 | 2005-06-22 | JP2006007775A | 2006-01-12 | WIRTZ HANS-GUIDO; SYMANNEK ACHIM; PAUL REINER; WEGENER DIRK |
| PROBLEM TO BE SOLVED: To provide a method, which can easily produce solid PU articles of good edge sharpness. SOLUTION: The invention relates to a production method of polyurethane molded articles, in which a polyurethane molding composite added to a reinforcing fiber layer or a reinforcing fiber mat contains a gas and a bubble stabilizer. These molded articles are useful in automotive and construction applications and furniture application. COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 54 | Insulated fluid conduit | US15224782 | 2016-08-01 | US09903525B2 | 2018-02-27 | Huabing Zheng; Donald Joseph Buckley, Jr.; Scott Michael Miller; Chad Eric Yates; Juan Alberto Rivas Cardona |
| The present invention provides an insulated fluid conduit useful in facilities in which a hot fluid susceptible to one or more deleterious phase changes in response to heat loss to a cold environment is transported. Such conduits may be particularly well suited to improve thermal control in subsea hydrocarbon production operations. The fluid conduit includes an inner first insulating layer containing a first polymer matrix, and a first phase change material undergoing a phase change at T1. The fluid conduit includes an outer second insulating layer containing a second polymer matrix, and a second phase change material undergoing a phase change at T2, wherein T1 is greater than T2. One or more barrier layers inhibit migration of the phase change material from the insulation layers and into the environment. In one or more embodiments, the phase change material is present as a microencapsulated phase change material. | ||||||
| 55 | Method for forming a crimping fold in a multi-layer composite material and multi-layer composite material having at least one crimping fold | US12990888 | 2009-04-28 | US09873237B2 | 2018-01-23 | Thorsten Böger; Erik Hilfrich; Oliver Kleinschmidt |
| A method for forming a beading fold in a multi-layer composite material, which has at least one core layer made of a plastics material and at least two cover layers made of a metallic material, provides high process reliability and optimal integrity of the formed multi-layer composite material. In particular, the method provides that, in the region of the beading fold to be formed, the core layer of the composite material is heated at least in portions to a temperature of 180° C. to 300° C. Also described herein is a multi-layer composite material having at least one beading fold, said material comprising at least one core layer made of a plastics material and at least two cover layers made of a metallic material. | ||||||
| 56 | LIGHT WEIGHT COMPONENT WITH ACOUSTIC ATTENUATION AND METHOD OF MAKING | US15096619 | 2016-04-12 | US20170292452A1 | 2017-10-12 | Gary D. Roberge |
| A method of making a light weight component is provided. The method including the steps of: forming a metallic foam core into a desired configuration; applying an external metallic shell to an exterior surface of the metallic foam core after it has been formed into the desired configuration; and attenuating the component to a desired frequency by forming a plurality of openings in the external metallic shell. | ||||||
| 57 | BAFFLE CONSTRUCTS FOR INSULATIVE FILL MATERIALS | US15125925 | 2016-02-29 | US20170172240A1 | 2017-06-22 | Ryan Taylor Massey; Cory Michael Olson |
| The inventive subject matter generally relates to shaped battle constructs for use in consumer products, such as garments and sleeping bags. In certain aspects, the shaped baffles are arranged in a multi-level construction of baffles wherein the baffles are offset in two or more levels. In certain aspects, the entire construct is a unitary woven, seamless construction. | ||||||
| 58 | CELLULAR GLASS CORROSION UNDER INSULATION SYSTEM | US15204276 | 2016-07-07 | US20170009914A1 | 2017-01-12 | Steven Robert Badger |
| A cellular glass system for an outer surface of a pipe. An insulation layer surrounds the outer surface of the pipe. The insulation layer has an outer surface and an inner surface and comprises cellular glass. A foam fills an annular space between the outer surface of the pipe and the inner surface of the insulation layer and is configured to limit water intrusion into the annular space and attenuate sound. The system may also include another insulation layer and another foam layer between the two insulation layers. | ||||||
| 59 | SKIN-COVERED FOAMED MOLDED ARTICLE AND ENERGY ABSORBING MEMBER | US14666721 | 2015-03-24 | US20150273801A1 | 2015-10-01 | Tomoo TOKIWA; Hiroki KAWAKAMI |
| A skin-covered foamed molded article composed of a polystyrene-based resin expanded beads molded article, and a skin that covers a substantially entire surface of the expanded beads molded article, wherein the skin is formed of an olefinic thermoplastic elastomer and covers the expanded beads molded article in such a manner that the skin is in contact with the surface thereof but is unbonded thereto. | ||||||
| 60 | MULTI-FUNCTIONAL CUSHION BODY | US14144769 | 2013-12-31 | US20150183182A1 | 2015-07-02 | Chao-Yang HUANG |
| A multi-functional cushion body has a microporous layer, pores of which are filled with cooling objects or heating objects offering a feeling of coolness or warmth in contact with the human skin. The multi-functional cushion body is either of a shoe cushion, footing cushion, back cushion, seat cushion, bra cushion, cupboard deodorizer cushion or antibacterial cushion. The cooling or heating objects in the multi-functional cushion body evaporate slowly, thus extending the service life. The multi-functional cushion body can be fabricated easily due to simple structure. | ||||||
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