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 |
|---|---|---|---|---|---|---|
| 221 | Optical-use adhesive film and roll thereof | US09489031 | 2000-01-21 | US06458467B1 | 2002-10-01 | Naoki Mizuno; Mikio Matsuoka; Tomonori Yoshinaga; Tadaaki Yoshinaka; Shinichi Tsukada |
| An optical-use adhesive film comprises a base film of the optical-use adhesive film is a biaxially oriented polyester film having a thickness equal to or more than 50 &mgr;m, and an adhesive polymer layer laminated on at least one surface of the base film. Refractive indexes of the base film in longitudinal and transverse directions are both in the range of from 1.55 to 1.70 and refractive indexes of the adhesive layer and the base film satisfies the following formula (1): (Nx−Nc)2+(Ny−Nc)2≦0.0300 (1), wherein Nx and Ny respectively indicate refractive indexes in longitudinal and transverse directions of a base film and Nc is a refractive index of an adhesive layer. | ||||||
| 222 | Adhesive bonding laminates | US09334169 | 1999-06-15 | US06361146B1 | 2002-03-26 | Jeanne Marie Saldanha Singh; Paul Timothy Spivey |
| An adhesive bonding laminate includes a first adhesive film that is capable of adhesively bonding to an epoxy coating and a second adhesive film that is capable of adhesively bonding to a stainless steel substrate. The first adhesive film is adhesively bonded to the second adhesive film. Ink jet printheads, ink jet print cartridges and methods of attaching a flexible circuit to a substrate employ the adhesive bonding laminate. | ||||||
| 223 | Apparatus for RF active compositions used in adhesion, bonding, and coating | US09867983 | 2001-05-31 | US20010035406A1 | 2001-11-01 | William J. Ryan; Jonathan M. Gorbold; Gary C. Adishian |
| A susceptor composition that can bond two or more layers or substrates to one another and that can be used to coat or cut a substrate. The susceptor composition is activated in the presence of radio frequency (RF) energy. In one embodiment, the susceptor composition of the present invention comprises a susceptor and a carrier. The carrier and susceptor are blended with one another and form a mixture, preferably a uniform mixture. The susceptor is present in an amount effective to allow the susceptor composition to be heated by RF energy. In a preferred embodiment, the susceptor also functions as an adhesive. The susceptor is an ionic or polar compound and acts as either a charge-carrying or an oscillating/vibrating component of the susceptor composition. The susceptor generates thermal energy in the presence of an RF electromagnetic or electrical field (hereafter RF field). | ||||||
| 224 | Flexible composite suitable as packaging material | US09393913 | 1999-09-10 | US06287658B1 | 2001-09-11 | Steven R. Cosentino; Wesley K. Seiverd |
| A wound roll suitable as a packaging material contains in order a release coating, a flexible polyester film, an adhesive, a flexible polymeric film support and a cold seal adhesive. | ||||||
| 225 | Primer composition for improving the bonding of a urethane adhesive | US777145 | 1996-12-30 | US5792811A | 1998-08-11 | Shailesh S. Bhat |
| The invention is a primer composition, comprising (a) a polyester resin of a carboxylic acid and a glycol; (b) a polymethylene poly(phenyl isocyanate), diphenylmethane diisocyanate or a mixture thereof; and (c) bismuth octoate in a volatile solvent. The primer composition of the invention advantageously provides improved adhesion characteristics of metal-to-glass bonding when used to prime substrate, particularly painted metal substrate before the application of a urethane adhesive. The primer composition of the invention may also be used to prime other metal and glass surfaces for use with various adhesives. | ||||||
| 226 | Method of reinforcing sheet metal panels, shaped plastic panels or the like and a stiffening member usable for performing the method | US205314 | 1988-06-10 | US4929483A | 1990-05-29 | Paul Halg; Paul Rohrer |
| The method of reinforcing a panel of sheet metal, a shaped plastic body or the like is performed by means of a one- or multi-layer stiffening member of essentially flat shape which comprises a layer at least partially consisting of a thermosetting resin. Thereby, the stiffening member is subjected to a first heat treatment until at least one of the surfaces of the stiffening member is sticky. Thereafter, the stiffening member is applied to the surface of an element to be reinforced. Finally, the stiffening member is subjected to a second, final heat treatment until all layers comprising a thermosetting resin material are cured. Thus, it is not necessary to manually prepare the stiffening member by removing a protection foil from its sticky surface prior to applying it to the element to be reinforced and a fully automated handling is possible. | ||||||
| 227 | Pressure-sensitive adhesives based on radiation-curable polyesters containing (meth)acrylic groups | US860635 | 1986-05-07 | US4820745A | 1989-04-11 | Hartmut Muller; Hans Huber |
| Pressure-sensitive adhesives composed of radiation-cured (meth)acrylic-functional polyesters are prepared from base polyesters, fluid at room temperature, which have molecular weights of 1,000 to 10,000 and branched main chain, and/or from new polyesters having aliphatic side chains bound by ester bridges or, in some cases, ether bridges to the main chain, followed by functionalization of a maximum of 90% of the original hydroxyl groups of the base polyesters by reaction with (meth)acrylate compounds, and crosslinked by electron beam or ultraviolet radiation in a thin coating on a support. The new pressure-sensitive adhesives have the property and the advantage of being cross-linkable by radiation without the use of solvents or diluents. | ||||||
| 228 | Container sealing tape | US828402 | 1977-08-29 | US4125665A | 1978-11-14 | Cyrus W. Bemmels; Richard A. Mumber; Thomas J. Schirripa |
| A linerless pressure-sensitive adhesive container sealing tape which comprises a backing laminate, a unique pressure-sensitive adhesive layer on one of the major surfaces of the laminate and a release coating on the other major surface of the laminate. The tape is wound upon itself to form a roll with the pressure-sensitive adhesive layer facing inwardly toward the axis of the roll. The backing preferably comprises a first polyester film, a thin layer of metal coated onto one major surface of said first film to metallize this surface, a second polyester film, and a laminating adhesive layer adhering the second film to the metallized surface of the first film. The pressure-sensitive adhesive layer consists of an adhesive composition based upon a mixture of S-I-S and S-B-S linear or radial thermoplastic and elastomeric block copolymers wherein the S-blocks are thermoplastic and are derived from styrene or styrene homologues and the I-blocks and B-blocks are elastomeric and derived from isoprene and butadiene, respectively, together with a relatively high melting point tackifier resin and a relatively low molecular weight S-block associating bonding resin. | ||||||
| 229 | A LAMINATE FOR USE IN PACKAGES, A METHOD OF MAKING A RECLOSABLE LAMINATE AND USE THEREOF | PCT/DK2011000130 | 2011-11-08 | WO2012062317A8 | 2012-07-05 | SCHMIDT PALLE; JOHANSEN PETER; DYDENSBORG ELSE; BROEDSGAARD OLE; WAEDELED BENJAMIN; CHRISTENSEN LARS |
| A laminate for use in packages comprising a base layer (3), a welding layer (1), and an adhesive layer (2) sandwiched there between. The adhesive layer (2) is a hot melt or a pressure sensitive adhesive (PSA) having a shear rate of 10-150 minutes at 40 °C using a load of 1000 g at 40 °C in a test area of 12.5 mm x 25 mm. The welding layer (1) comprises a layer of a polyethylene (PE) copolymer, and optionally an additional layer of PET, PE, such as low density polyethylene (LDPE) and/or PP. By the method of making a laminate, it is possible to apply to a base layer (3), an adhesive layer (2) of hot melt/PSA and subsequently a welding layer (1) in one and the same working process in order to form a reclosable laminate (9). This laminate (9) may serve as a reclosable lid on e.g. a package tray (4, 5). The laminate exhibits a reduced risk of formation of cracks or so-called piping in the laminate. Use of the laminate is also disclosed. | ||||||
| 230 | HEAT ACTIVATED OPTICALLY CLEAR ADHESIVE FOR BONDING DISPLAY PANELS | PCT/US2011027178 | 2011-03-04 | WO2011112447A3 | 2011-12-29 | SUWA TOSHIHIRO; KINOSHITA YASUHIRO; EVERAERTS ALBERT I; DIRE ABDUJABAR K |
| A method of making a display assembly includes the steps of (a) attaching a first substrate and a second substrate with an optically clear heat activated adhesive to form a laminate. Each of the first and second substrate has opposing major surfaces. At least one of the first and second substrate has a three dimensional surface topography covering at least a portion of one of its major surfaces or is distortion sensitive. At a heat activation temperature, the adhesive is pressure sensitive. The method also includes heating the laminate to the heat activation temperature of the adhesive causing the adhesive to flow. The activation temperature is greater than 40°C and less than 120°C. | ||||||
| 231 | ADHESIVES COMPATIBLE WITH CORROSION SENSITIVE LAYERS | PCT/US2009053337 | 2009-08-11 | WO2010019528A3 | 2010-05-14 | EVERAERTS ALBERT I; XIA JIANHUI |
| An article comprising an adhesive having an acid number of less than about 5 is provided. The adhesive is selected from the group consisting of polyurea, polyamide, polyurethane, polyester, addition cure silicone and combinations thereof. The adhesive is in contact with a corrosion sensitive layer selected from the group of metal and metal alloys. When the article is conditioned for about 21 days at about 60°C and 90% relative humidity, the corrosion sensitive layer exhibits a change from its initial electrical resistance value of 20% or less. | ||||||
| 232 | ADHESIVE FILM COMPRISING AT LEAST TWO LAYERS | PCT/EP2004009344 | 2004-08-20 | WO2005021670A2 | 2005-03-10 | BARGMANN RENKE; HUSEMANN MARC |
| The invention relates to an adhesive film comprising at least two adhesive layers (i) and (ii), which differ chemically from one another. The inventive film is characterised in that one layer (i) is suited to bond with epoxy materials and/or polyimides and the other layer (ii) is suited to bond with polycarbonate, polyethylene, polypropylene, acrylonitrile-butadiene-styrene copolymer plastics, polyethylene terephthalate and/or polyvinylchloride. | ||||||
| 233 | PRODUCTION METHOD FOR THERMOPLASTIC LIQUID CRYSTAL POLYMER FILM, CIRCUIT BOARD AND PRODUCTION METHOD THEREFOR | PCT/JP2014078063 | 2014-10-22 | WO2015064437A8 | 2016-05-12 | NAKASHIMA TAKAHIRO; ONODERA MINORU; SUNAMOTO TATSUYA |
| Provided is a production method for a thermoplastic liquid crystal polymer film having excellent heat bonding properties with respect to an adherend comprising a thermoplastic liquid crystal polymer film; also provided are a circuit board and a production method therefor. The production method for the film comprises: an appreciation step, wherein thermoplastic liquid crystal polymer films serving as an adherend film and an adhesive film are respectively prepared, and, for the adherend surface portion of the thermoplastic liquid crystal polymer film, the percentage ratios X (%) and Y (%) occupied by the sums of [C-O bond] and [COO bond] peak surface areas in the total peak surface area from the bond peaks originating from C (1s) are appreciated by X-ray photoelectron spectrometry; and an adjustment step, wherein the thermoplastic liquid crystal polymer film serving as the adhesive film is selected or activated so that said X and Y satisfy the following formulae (1) and (2): 38 ≤ X + Y ≤ 65 (1) -8.0 ≤ Y - X ≤ 8.0 (2) | ||||||
| 234 | BONDING OF COMPOSITE MATERIALS | PCT/US2013070506 | 2013-11-18 | WO2014081652A2 | 2014-05-30 | MACADAMS LEONARD A; KOHLI DALIP K |
| A composite bonding process is disclosed. At least one of two curable, resin-based composite substrates is partially cured to a degree of cure of at least 10% but less than 75% of full cure. The composite substrates are then joined to each other with a curable adhesive there between. Co-curing of the joined substrates is carried out to form a bonded composite structure, whereby the adhesive is chemically bonded to and mechanically diffused with the resin matrix of the composite substrates, resulting in a chemically bonded interface between the adhesive and each composite substrate. Furthermore, bonding can occur with the presence of contaminants on the joined surfaces. | ||||||
| 235 | HEAT DISSIPATING TAPE USING CONDUCTIVE FIBER AND METHOD FOR MANUFACTURING SAME | PCT/KR2012003295 | 2012-04-27 | WO2012148219A3 | 2013-01-17 | MIN EUI HONG |
| The present invention relates to a heat dissipating tape using a conductive fiber and a method for manufacturing same. More particularly, the present invention relates to a heat dissipating tape comprising a heat dissipating adhesion portion having as a conductive base material portion, a conductive fiber coated with a conductive substance, and having a heat dissipating adhesive coated on the conductive base material portion, the heat dissipating adhesive being an acryl adhesive or a silicone adhesive containing graphite. The heat dissipating tape of the present invention has an excellent resistance to external forces on the product, has an excellent outer appearance due to the smooth surface, is less likely to get damaged, and enables the delamination of the conductive base material portion and the heat dissipating adhesion portion to not occur as easily. | ||||||
| 236 | USE OF AN ADHESIVE FILM FOR IMPLANTING ELECTRIC MODULES INTO A CARD BODY | PCT/EP2004009345 | 2004-08-20 | WO2005021671A3 | 2005-04-28 | BARGMANN RENKE; HUSEMANN MARC |
| The invention relates to the use of an adhesive film for bonding a chip module in a card body. Said adhesive film comprises at least two adhesive layers (i) and (ii), which differ chemically from one another. | ||||||
| 237 | 耐衝撃性ポリエステル感圧接着剤 | JP2018508158 | 2016-08-11 | JP2018530638A | 2018-10-18 | リチャード ワイ.リュー; チンチン マー; チェン チョン; ビクター ホ; ナサニエル アイ.レン; ハロルド ティー.マンソン |
| ポリエステル感圧接着剤が記載される。当該ポリエステルは、少なくとも2つの異なる二塩基酸残基及び少なくとも2つの異なるジオール残基を含む。当該ポリエステルは、アルケニル基を含有する少なくとも1つのペンダント基を含む。当該ポリエステル中の、少なくとも1つのペンダント基の総数の、エステル基の総数に対する比は、0.001〜0.1の範囲である。当該ポリエステルは、ガラス転移温度が−50℃〜−10℃の範囲である。 | ||||||
| 238 | ポリエステル系粘着剤組成物、及び、粘着シート | JP2014077022 | 2014-04-03 | JP6396062B2 | 2018-09-26 | 吉江 里美; 石黒 繁樹; 田中 亜樹子 |
| 239 | 両面テープ、両面テープを含む電子デバイス、及び両面テープの製造方法 | JP2017549676 | 2016-03-22 | JP2018515638A | 2018-06-14 | チョ,ド−クァン; キム,ヨウ−フン; ソ,ヨン ソク |
| 本発明は、両面テープ、この両面テープを含む電子デバイス、及びこの両面テープの作製方法に関する。一態様によれば、本発明は、第1の粘着剤層と、1つ以上のフィルムキャリア層と、第2の粘着剤層とを順に備え、第1の粘着剤層と第2の粘着剤層との間にコア粘着剤層を備える両面テープを提供する。 | ||||||
| 240 | ポリ乳酸ポリマーとポリ酢酸ビニルポリマーと可塑剤とを含む組成物及びフィルム | JP2017533272 | 2015-12-14 | JP2018502957A | 2018-02-01 | チョウ, ニン; クロウ, ロバート エス.; デーン, デレク ジェイ.; カリシュ, ジェフリー ピー.; メリル, ウィリアム ダブリュー.; レワンドウスキー, ケビン エム.; チャクラヴァーティー, ジャヤント |
| 半結晶性ポリ乳酸ポリマーと、少なくとも25Cのガラス転移温度(Tg)を有するポリ酢酸ビニルポリマーと、可塑剤と、場合により含まれる非結晶性ポリ乳酸ポリマーと、を含む組成物が記載される。別の実施形態では、組成物は、核剤を更に含む。組成物を含むフィルム、並びに本明細書に記載のフィルムとフィルム上に配置された感圧性接着剤の層とを含む、テープ又はシートなどの物品もまた記載される。【選択図】図2 | ||||||
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