| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Improve the peel strength of the copper laminate | JP2004559288 | 2003-12-05 | JP4686194B2 | 2011-05-18 | ヴァッコ、アンドリュー、ジェイ.; チェン、スチェイン、エフ.; ブレネマン、ウィリアム、エル. |
| 162 | Improvement in peel strength of copper laminate | JP2009277618 | 2009-12-07 | JP2010093281A | 2010-04-22 | BRENNEMAN WILLIAM L; VACCO ANDREW J; CHEN SZUCHAIN F |
| <P>PROBLEM TO BE SOLVED: To solve such a problem that when surface roughness is decreased for satisfying an electrical performance need criteria, adhesion (peel-strength) between a copper foil and a dielectric substrate becomes weakened, while a roughened surface of the copper foil is useful for facilitating adhesion between the copper foil and the dielectric substrate, the degree of the surface roughness is restricted mostly by the electrical performance need criteria of copper foil for high frequency radio wave. <P>SOLUTION: A copper foil (60) for lamination to a dielectric substrate includes a layer (64) deposited on a surface of the copper foil (60). The layer (64) is formed from chromium and zinc ions or oxides and is treated with an aqueous solution containing at least 0.5% silane. <P>COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 163 | Repair of a single vacuum weight loss composite panel | JP2007557158 | 2006-02-24 | JP2008531337A | 2008-08-14 | バーガーソン、アンソニー; ホイットワース、デンバー; マーヴィン、マイケル |
| 構造物に複合部材を取り付ける方法。 樹脂で含浸された繊維の積層を形成するステップと、前記含浸積層に第一温度で加熱するステップと、前記樹脂を脱気し、脱気した含浸積層を形成するため、前記含浸積層を第一圧力で減圧するステップと、前記脱気した含浸積層を構造体に配置するステップと、第二温度で加熱する、および第二圧力で減圧することによって、前記脱気した含浸積層を前記基板上で硬化するステップとを含む方法。 | ||||||
| 164 | Decorative board having a core sheet impregnated with vinyl ester resin | JP20595391 | 1991-08-16 | JP3053264B2 | 2000-06-19 | ディオン アンドリュー |
| 165 | Adhesive with a synthetic fiber reinforcement - laminated wood structural member | JP50586695 | 1995-07-21 | JPH10503720A | 1998-04-07 | ダニエル エイ ティングレイ |
| (57)【要約】 構造荷重(16)を担持する接着剤−積層構造用木材部材(10)の製造方法が多重の細長い木材セグメント(12)と合成繊維補強材(24、30)を、それらの長さを前記部材の長さとほぼ整列させて互いに接合することを含む。 合成繊維補強材は樹脂マトリックス(56)内に保持された多重の合成繊維ストランド(52、54)を含む。 | ||||||
| 166 | Process for forming covering member for vehicle interior and covering member | JP9178091 | 1991-01-29 | JPH04270648A | 1992-09-28 | ABERUTEINO ETSUTORE |
| PURPOSE: To obtain a covering member for vehicle interior having a required configuration and rigidity by heating a supporting member combined with a wooden plate-like member at substantially higher temperature than that during the application of pressure for a preset period of time. CONSTITUTION: A woven or non-woven fabric is impregnated with a product based on epoxy resin. The impregnated fabric is passed in an oven which progressively raises the temperature to a temperature close to 100 deg.C. The supporting member 3 defined by one or more layers of the impregnated fabric which left the oven is dry but very malleable, so that once the supporting member 3 has been associated with the brier plate-like member 2, it can assume the pre- required configuration simultaneously with the plate-like member 2 in the press. The wooden plate-like member 2 is associated with the supporting member 3 and a gradual pressure, which can vary from 0.5 to 8 kg/m<2> , is applied to both for a preset time at a high temperature varying between 120-180 deg.C, thereby obtaining a brier covering member 1 with strength and rigidity characteristics. | ||||||
| 167 | Pressurized and/or cryogenic gas container and conduit made with gas impermeable polymer | JP16586991 | 1991-07-05 | JPH04249699A | 1992-09-04 | PIITAA EMU ADAMUSU |
| PURPOSE: To reduce the weight of a container or conduit for compressed gas and/or cryogenic gas by using a gas impermeable synthetic polymer forming a gas barrier and a structural member which provides structural soundness to the container or conduit. CONSTITUTION: This container or conduit comprises a boss 12, located at one end of the container 10 and having the function of moving into and out of the container 10, and a main body including two layers, i.e., an inner liner 14 and an over flap 16. The inner liner 14 is made from fibers containing a polymer, a film, or a resin. The over flap 16 is made from a composite material consisting of structural fibers united within a matrix resin. COPYRIGHT: (C)1992,JPO | ||||||
| 168 | Plate member for light shielding blade or arm | JP160791 | 1991-01-10 | JPH04211232A | 1992-08-03 | MATSUBARA TAKASHI |
| PURPOSE: To provide a plate member which is lightweight and has a high strength and can be used for the superhigh speed shutter for a camera, etc. CONSTITUTION: A lamination structure plate member consists of two surface member layers made of reinforced resin consisting of the continuous carbon fibers arranged in one direction which is nearly parallel to the longitudinal direction of the light shielding blades 3-6, 10-13 or arms 1, 2, 8 and 9 and the matrix resin which encloses the continuous fibers and an intermediate layer interposed between two surface layers, and the intermediate layer is the reinforced resin consisting of the aromatic polyamide fibers and the matrix resin which encloses the aromatic polyamide fiber, and the polyamide resin may be the continuos fiber or short fiber, and the fiber direction is nearly vertical to the longitudinal direction of the light shielding blades 3-6 and 10-13 or the arms 1, 2, 8 and 9. COPYRIGHT: (C)1992,JPO&Japio | ||||||
| 169 | Carbon fiber structure and production thereof | JP1506390 | 1990-01-26 | JPH03220353A | 1991-09-27 | TAKEMURA TETSUJI; TAKAMATSU AKIO; NISHIMURA KASUKE |
| PURPOSE: To obtain the subject carbon fiber structure having a high bulk density by laminating sheet-shaped materials prepared by mixing an optically anisotropic pitch-based infusibilized fiber with a phenol resin-based fiber and carrying out intertwinement and carbonization of the resultant laminated material. CONSTITUTION: Sheet-shaped materials prepared by mixing an optically anisotropic pitch-based infusibilized fiber with a phenol resin-based fiber or by mixing an optically anisotropic pitch-based infusibilized and partially carbonized fiber with a phenol resin-based fiber are laminated and the resultant laminated material is intertwined to give a shaped material followed by carbonization. Handling of the sheet-shaped material can be improved and stabilization of the laminated structure due to intertwinement and improvement of the bulk density can be realized without reduction of the purity of carbon. COPYRIGHT: (C)1991,JPO&Japio | ||||||
| 170 | Production of belt-like or strip-like thin leather material and use of the same | JP14325590 | 1990-05-31 | JPH03119161A | 1991-05-21 | RUDORUFU ETENHOOFUAA |
| PURPOSE: To obtain a belt-like or strip-like thin leather material which has excellent flexibility because of deformability of its stamped part and can be used for an ornamental material by laminating a wood veneer onto a base material such as leather material, cutting it into belt-like plates and finally stamping the layer of the wood veneer under a specific condition. CONSTITUTION: At first, a wood veneer is laminated onto a belt-like base material of a fabric (like) or leather (like) material and an obtained laminated body is cut into platelets of belt-like or strip-like shape. Then the objective material is obtained by stamping or cutting the layer of the wood veneer which is an ornamental layer perpendicularly at least to the longitudinal direction of the belt leaving a regular interval. One concrete example of the material is rectangular veneer platelets 6 forming a line without interval, which are obtained by dividing a veneer material 2 laminated with a base material by a multiple of parallel stamping processing part 5 extending perpendicularly to the longitudinal direction of the belt. COPYRIGHT: (C)1991,JPO | ||||||
| 171 | JPH03501589A - | JP50119788 | 1988-12-08 | JPH03501589A | 1991-04-11 | |
| 172 | Production of fiber reinforced thermoplastic composite-metallic foil laminate | JP31310189 | 1989-12-01 | JPH02188240A | 1990-07-24 | JIEEMUSU EDOWAADO OKONAA; BENEDEIKUTO ROTSUKO BONATSUA; JIEEMUSU TOOMASU UEBUSUTAA |
| PURPOSE: To continuously produce a laminated article by pultrusion by drawing a fiber reinforcing material impregnated with a thermoplastic substance and a metal foil through a heated forming die to form a laminate comprising a fiber reinforced thermoplastic composite to which the metal foil is bonded. CONSTITUTION: The additional tape or sheet of thermoplastic substance impregnated reinforcing fibers 40 is arranged so as to be adjacent to one tape or sheet of a metal foil 34 by a redirecting bar 42 and the additional tape or sheet of the metal foil 44 from a roll 46 is arranged by a redirecting bar 48 so as to be adjacent to the tape or sheet of the impregnated fibers 40. The layup 50 comprising at least one continuous tape or sheet of the reinforcing fibers impregnated with the thermoplastic substance having the continuous tape or sheet of at least one metal foil is drawn through a heated forming die 26 and a cooling die 30 by a taking-over mechanism 32. COPYRIGHT: (C)1990,JPO | ||||||
| 173 | Resin rich electrically insulated tape and manufacture thereof | JP23859387 | 1987-09-22 | JPS63146308A | 1988-06-18 | JIYONASAN ROBAATSU |
| 174 | JPS4870785A - | JP12878472 | 1972-12-21 | JPS4870785A | 1973-09-25 | |
| 175 | 積層シート及びその製造方法 | JP2014553117 | 2013-12-13 | JPWO2014097999A1 | 2017-01-12 | 弘二 杉浦; 亮仲 福味; 賢治 久保; 孝徳 立松 |
| ポリウレタン系樹脂及び有機難燃剤を含む樹脂組成物を、トラペゾイド法による引裂き強度がタテ150N以上かつヨコ100N以上の織布に含浸させてなる多孔質構造を有する基布層12と、前記基布層上に積層された表皮層16と、を有し、厚さ方向に貫通する複数の通気孔30を有する積層シート10。 | ||||||
| 176 | 接着剤とインターロックされるアンダーカット特徴部を含む多層構造を有する物品、及びそれを作製する方法 | JP2016532027 | 2014-09-03 | JP2016536168A | 2016-11-24 | ジョゼフ ディー. ルール,; マリオ エー. ペレス,; ケヴィン エム. レヴァンドフスキ,; ロバート エー. フォレンスビー, |
| (a)ポリオレフィンから形成され、一体バッキング上に形成され、かつそこから延在するアンダーカット特徴部を含む第1の層と、(b)硬化したときに59を超えるショアD硬度を有する接着剤を含む第2の層と、(c)基材を含む第3の層と、を有する、多層構造を有する物品が提供される。第2の層は、アンダーカット特徴部とインターロックされ、第3の層は、接着剤に付着され、第2の層は、第1の層と第3の層との間に配置される。(a)アンダーカット特徴部を含む第1の層を形成するために、ポリオレフィン樹脂を金型キャビティ内に堆積させるステップと、(b)少なくとも150ミリメートル/分の速度で、金型キャビティから第1の層を離型するステップと、(c)第1の層に取り付けられる第2の層を形成するために、硬化性接着剤をアンダーカット特徴部に塗布するステップと、(d)基材を含む第3の層を第2の層に取り付けるステップと、を含む、方法も提供される。【選択図】図5C | ||||||
| 177 | 接着剤とインターロックされるアンダーカット特徴部を含む多層構造を有する物品、及びそれを作製する方法 | JP2016532027 | 2014-09-03 | JP6017098B1 | 2016-10-26 | ルール, ジョゼフ ディー.; ペレス, マリオ エー.; レヴァンドフスキ, ケヴィン エム.; フォレンスビー, ロバート エー. |
| (a)ポリオレフィンから形成され、一体バッキング上に形成され、かつそこから延在するアンダーカット特徴部を含む第1の層と、(b)硬化したときに59を超えるショアD硬度を有する接着剤を含む第2の層と、(c)基材を含む第3の層と、を有する、多層構造を有する物品が提供される。第2の層は、アンダーカット特徴部とインターロックされ、第3の層は、接着剤に付着され、第2の層は、第1の層と第3の層との間に配置される。(a)アンダーカット特徴部を含む第1の層を形成するために、ポリオレフィン樹脂を金型キャビティ内に堆積させるステップと、(b)少なくとも150ミリメートル/分の速度で、金型キャビティから第1の層を離型するステップと、(c)第1の層に取り付けられる第2の層を形成するために、硬化性接着剤をアンダーカット特徴部に塗布するステップと、(d)基材を含む第3の層を第2の層に取り付けるステップと、を含む、方法も提供される。 【選択図】図5C |
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| 178 | 複合材及びその製造方法 | JP2015063641 | 2015-03-26 | JP2016183885A | 2016-10-20 | 藤田 博康; 関根 尚之; 川島 愛 |
| 【課題】導電性を有する複合材料の各層に流れる電流を測定することができるとともに、電極部における接触抵抗を小さくかつそのバラつきを少なくして、電極部から均質な電流を流し込むことができるようにする。 【解決手段】導電性の繊維又は樹脂を含む複合材料シートを複数積層してなる複合材において、複数枚の前記複合材料シートの端部間に、前記複合材料シート同士を離間するための離間用部材を設けるとともに、前記複合材料シートの離間側端部に、電極となる金属シートが挟持された状態で設ける、あるいは前記複合材料シートの離間側端部の表面および裏面の少なくとも一方に電極となる金属シートを接合させるようにした。 【選択図】図1 |
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| 179 | ポリマーナノ粒子ポリマーを用いて製造された不織中間層 | JP2015000212 | 2015-01-05 | JP2015196378A | 2015-11-09 | トーマス・ケー・ツォツィス |
| 【課題】改善された剛性、強度、及び高温での圧縮及び剪断強さを保持する能力を備えたポリマーナノ粒子強化中間層又は「強靱化ベール」、並びにその製造方法が提供される。 【解決手段】複合構造を製造する方法が提供される。本方法は、第1の繊維層に隣接するポリマーナノ粒子強化中間層を配置するステップを含む。ポリマーナノ粒子強化中間層は、少なくとも1つのポリマー、及び少なくとも1つのポリマーの分子主鎖内に含まれる誘導体化ナノ粒子を含み、ここで、ナノ粒子は誘導体化されて官能基を含む。本方法はさらに、第1の繊維層に付着したポリマーナノ粒子強化中間層に隣接する第2の繊維層を配置するステップを含む。第1の繊維層及び第2の繊維層には樹脂が注入される。樹脂は硬化されて複合構造を固化する。 【選択図】図1 |
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| 180 | Sandwich member and a method of manufacturing the same | JP2013538083 | 2011-09-24 | JP2013542107A | 2013-11-21 | ベンノ・シュタンプ; トビアス・ブルーメンシュトック; ラルフ・グライナー; フーベルト・ビーダー |
| A sandwich component with a moisture barrier and a method for the production thereof. The sandwich component has at least one top layer (2) and one honeycomb core. The top layer (2) has a cover layer (2a) made from reinforcing fibres with a thermoplastic matrix, and the honeycomb has a cellulose-based material and has a plurality of webs (1). The top layer (2) has a barrier layer (2c) made from a thermoplastic material, the melting properties corresponding to the melting properties of the cover layer. An intermediate layer (2b) between the cover layer (2a) and the barrier layer (2c) has reinforcing fibres made from the cover layer (2a) and thermoplastic material of the barrier layer (2c). The reinforcing fibres are permeated by one proportion of the thermoplastic matrix material of the cover layer (2a) and by one proportion of the thermoplastic material of the barrier layer (2c). | ||||||
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