子分类:
- B32B5/02: .以由{纤维或细丝构成的薄层的结构特征为特征的(B32B21/02优先;颗粒形成的层入B32B5/16;天然的矿物纤维形成的层入B32B19/00;具有涂层的或浸渍的纤维入B32B2255/02 或B32B2260/021)}
- B32B5/14: .以不同部分在构造方面或物理性质方面有差异(例如接近其表面的部分比较密实)的薄层为特征的
- B32B5/16: .以由颗粒、例如碎屑、粉末、{小颗粒构成的薄层特性为特征的 (B32B21/02优先;天然矿物颗粒形成的薄层入B32B19/00; 带有涂层或浸渍的颗粒入 B32B2255/04 或 B32B2260/025) }
- B32B5/18: .以泡沫材料的薄层特性为特征的
- B32B5/22: .以含有两层或多层{纤维、细丝、颗粒或泡沫相贴的薄层为特征的 (B32B 19/06,B32B 19/048,B32B 19/047, B32B 29/005至B32B 29/04优先) }
| 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 | Thermosetting adhesive composition, and heat-resistant adhesive film and wiring film each using the same | JP2012037306 | 2012-02-23 | JP2013170266A | 2013-09-02 | AMO SATORU; ABE TOMIYA; SHANAI DAISUKE; KOMATSU HIROAKI; MURAKAMI KENICHI |
| PROBLEM TO BE SOLVED: To provide an adhesive composition high in storage stability, reliability and low-temperature adhesivity, and to provide a hard-to-curl heat-resistant adhesive film and wiring film each using the same.SOLUTION: A thermosetting adhesive composition is characterized by comprising: 100 pts.wt. of a phenoxy resin having in the structure a bisphenol S-type skeleton, ≥5 pts.wt. and ≤30 pts.wt. of a maleimide compound having in the structure a plurality of maleimide groups; and ≥3 vol.% and ≤20 vol.% of an inorganic needle-like filler. A heat-resistant adhesive film obtained by coating the composition on a polyimide film followed by drying, and a wiring film obtained by laying a conductor wiring layer on such a heat-resistant adhesive film, are also provided. | ||||||
| 162 | Composition for use in apparatus for delivery of functional material to image forming member | JP2012154604 | 2012-07-10 | JP2013029833A | 2013-02-07 | SARAH J VELLA; U RIU; NUNG SHIN HU; RICHARD A KLEINKLAR |
| PROBLEM TO BE SOLVED: To provide a delivery member for delivering a functional member which adds low-friction and abrasion-resistant characteristics of an overcoat layer of a photoreceptor under high humidity conditions.SOLUTION: An embodiment comprises a delivery member 38 in contact with either a surface of an imaging member (photoreceptor) or a surface of a bias charge roller. The delivery member 38 is fabricated as a polymer matrix 50 impregnated with functional materials 48, so that the functional materials 48 are transferred onto the imaging member or bias charge roller from the delivery member 38. In addition, an embodiment comprises a very thin outer layer on the imaging member surface, where the outer layer comprises functional materials 48, such as paraffin, that act as a lubricant and/or a barrier against moisture and/or surface contaminants, to improve an electrophotographic imaging member. The improved electrophotographic imaging member exhibits improved xerographic performance such as reduction in torque, friction and deletions under high humidity conditions. | ||||||
| 163 | Composite material for battery case and manufacturing method of the same | JP2011196138 | 2011-09-08 | JP2013004514A | 2013-01-07 | KWAK JIN-WOO; SONG KYONG-HWA; SAI CHIKUN |
| PROBLEM TO BE SOLVED: To provide a composite material for a battery case which inserts heat radiation layers filled with a heat radiation filler between layers and thereby effectively radiating heat generated from a battery through the heat radiation layers and ensures long life and stability of a battery package, and to provide a manufacturing method of the composite material.SOLUTION: In a composite material for a battery, knit layers that are not filled with a heat radiation filler are inserted between layers and thereby preventing the deterioration of mechanical properties due to overfilling of the heat radiation filler which is caused in a conventional heat radiation composite material. | ||||||
| 164 | Method for manufacturing three-dimentional object | JP2012091377 | 2012-04-12 | JP2012232578A | 2012-11-29 | CHRETIEN MICHELLE N; KEOSHKERIAN BARKEV; BELELIE JENNIFER L; CHOPRA NAVEEN |
| PROBLEM TO BE SOLVED: To provide a three-dimentional object that reduces cost, improves smoothness of a characteristic object, can adjust properties, such as a phase inversion rate, gel strength, viscosity, elastic modulus, and addition of functional group, and improves curability compared with a composition cured by only radical curing.SOLUTION: A method for manufacturing the three-dimentional object includes: accumulating the composition including a catalyst curing compound, a cationic photoinitiator, a radically curable compound, a radical photoinitiator and a gellant on a surface where the three-dimentional object is manufactured; and curing the composition. | ||||||
| 165 | Manufacturing method of laminated electronic component and laminated electronic component | JP2010165398 | 2010-07-22 | JP2012029015A | 2012-02-09 | KIMURA KAZUNARI; TABATA MISAKI; TOMAKI SHIGEMITSU; NAKAMURA AKIRA; ABE ISAO; SAITO NORIYUKI |
| PROBLEM TO BE SOLVED: To efficiently manufacture an electronic component including a plurality of ceramic laminates of different lamination directions.SOLUTION: A manufacturing method of a laminated electronic component includes: a process of forming a first laminated sheet for which an insulating function layer comprising an unbaked ceramic material and a conductor layer in which a plurality of conductors configuring a part of a circuit element are arrayed laterally and longitudinally are laminated; a process of forming a second laminated sheet similarly; a process of obtaining first laminated sticks by cutting the first laminated sheet in a bar shape; a process of obtaining second laminated sticks by similarly cutting the second laminated sheet; a process of obtaining a third laminated sheet by rotating the second laminated sticks for 90°, disposing them so as to be held between the first laminated stick and the first laminated stick, subjecting them to thermocompression bonding, and integrating them; a process of turning the third laminated sheet into chips by laterally and longitudinally cutting the third laminated sheet so as to include a first laminate which is a part of the first laminated stick and a second laminate which is a part of the second laminated stick in each of them; and a process of obtaining a sintered body for which the first laminate and the second laminate are integrated by baking unbaked chips that are made into chips. | ||||||
| 166 | Method for producing liquid crystalline polyester composition, and connector | JP2010018093 | 2010-01-29 | JP2011157421A | 2011-08-18 | FUKUHARA YOSHIYUKI; MATSUMI YASUO |
| <P>PROBLEM TO BE SOLVED: To provide a method producible of a composition containing a liquid crystalline polyester and mica and less likely to cause blister even at a high temperature. <P>SOLUTION: The composition is produced by feeding a liquid crystalline polyester and mica into an extruder having a vent section, and melt-kneading them under the conditions where the degree of pressure reduction in the vent section is ≤-0.06 MPa in terms of gauge pressure. The screw diameter of the extruder is preferably ≤50 mm. The ratio (L/D) of the total length (L) to the total width (D) of a cylinder of the extruder is preferably ≥50. <P>COPYRIGHT: (C)2011,JPO&INPIT | ||||||
| 167 | Composite sliding structure including a segment structure hard film and the solid lubricant layer or fluid-like lubricant layer on the substrate, and methods for their preparation | JP2007507228 | 2006-03-08 | JP4711265B2 | 2011-06-29 | 尚登 大竹; 誠 松尾; 佑一 青木 |
| 168 | 水濡れインジケーターおよびタイムインジケーター | JP2008552135 | 2007-12-26 | JPWO2008081835A1 | 2010-04-30 | 澄廣 白石 |
| 本発明は、湿潤することによって白色などの非透明色から透明色に変化することで、水濡れを視認させることのできるフィルム状またはシート状の水濡れインジケーターを提供する。また本発明は、湿潤による透明化により、所定時間の経過を視認させることのできるフィルム状またはシート状のタイムインジケーターを提供する。本発明のインジケーターは、水溶性セルロース誘導体および一価、二価および三価の金属からなる群から少なくとも1種を含有する水溶性化合物を含む非透明皮膜組成物から形成される水溶性非透明層を有することを特徴とする。本発明のインジケーターは、さらに当該水溶性非透明層に、水溶性透明層、水不溶性の支持層、および/または被験物に貼着するための貼着層(粘着層およびそれを覆う剥離紙)が積層されてなる形態を有するものであってもよい。 | ||||||
| 169 | Fine particles in the nano fiber web | JP2006518753 | 2004-06-30 | JP4393513B2 | 2010-01-06 | エリック アレキサンダー イセル オラフ; チャブラ ラジブ |
| 170 | 接着性シートおよび積層材料 | JP2004519177 | 2002-07-03 | JPWO2004005017A1 | 2005-11-04 | 小川 正則; 正則 小川; 紀岡 宣彦; 宣彦 紀岡; 伊藤 邦矩; 邦矩 伊藤 |
| 自動車等の内装材に使用される積層材料(5)および該積層材料(5)に使用される接着性シート(1)である。接着性シート(1)は、多孔質シート(2)に合成樹脂(4)を含浸せしめ、更に該多孔質シート(2)の表面に熱硬化性樹脂粉末(3)を存在せしめたものであり、積層材料(5)は、接着性シート(1)を少なくとも芯材(6)や表皮材等の他の部材に積層したものである。 | ||||||
| 171 | Nitrile rubber-metal laminated gasket material | JP2004182070 | 2004-06-21 | JP2005180682A | 2005-07-07 | FUKAZAWA KIYOBUMI; KAISE TOMOHIRO |
| PROBLEM TO BE SOLVED: To provide a nitrile rubber-metal laminated gasket material superior in water resistance, LLC resistance and heat resistance without performing harmful coating-type chromate treatment onto metal, and free from peeling-off of the laminated gasket, for example, even in a water-resistant testing method under consideration of actual use environment of an engine cylinder head gasket, in forming the rubber-metal laminated gasket material composed of a complex of stainless steel plate and nitrile rubber. SOLUTION: This nitrile rubber-metal laminated gasket material is formed by successively laminating a surface treatment agent layer including organic metallic compound and silica, a phenol resin-containing vulcanized adhesive agent layer, a nitrile rubber layer, and further preferably an anti-adhesion layer on the stainless steel plate. COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 172 | Laminate with a breathable waterproof has a high mechanical strength | JP2002535876 | 2001-10-12 | JP2004516164A | 2004-06-03 | モレッティ,マリオ ポレガート |
| 透水性であり、それ自体が複合材料として技術的に知られている材料の繊維からなる支持体に結合した親水性ポリマーでできた少なくとも一つの膜を含み、高度の機械的強度特性を有する、防水性で通気性のある積層物。 | ||||||
| 173 | Extruded bonded nonwoven / elastic laminate | JP2001554866 | 2001-01-10 | JP2003520705A | 2003-07-08 | ダブリュ. イートン,ブラッドリー; シー. ニガード,ジェイムズ; ジー. ノークイスト,スコット; エヌ. ミッチェル,シャロン; ジー. ワン,ショウ−ルー |
| (57)【要約】 少なくとも1つの不織ウェブ層に直接接着したエラストマーフィルムを含み、接着レベルが、延伸性部分を形成する少なくとも一部分にわたって実質的に連続的である、押出接着不織弾性フィルム積層体が提供される。 前記延伸性部分が、少なくとも一方向に延伸性であり、少なくとも250パーセントの破断点伸び、300N/cm 2より大きい100パーセント伸び率における応力を有する。 前記エラストマーフィルムの外面が、介在接着剤層を用いずに前記不織ウェブの繊維に直接接着される。 前記積層体は100パーセントより大きい有用な伸長範囲を有し、前記不織ウェブを離層または破断しない弾性積層体を形成するように少なくともこの程度まで伸長及び回復されることが可能である。 | ||||||
| 174 | Nonwoven | JP9924488 | 1988-04-21 | JP2585707B2 | 1997-02-26 | MYAZAKI YOSHITOMO; NISHIMURA ATSUSHI; KATO TAKASHI |
| 175 | JPH041113B2 - | JP21227985 | 1985-09-27 | JPH041113B2 | 1992-01-09 | HONDA YUZURU; FUJII TAKEO; WATANABE KOJI |
| A soft and strong composite sheet for an artificial leather is provided by superimposing a fabric or woven or knitted construction and a non-woven fiber web, anchoring fibers of the non-woven fiber web with the fabric by needle punching to form a composite sheet and thereafter coating or impregnating the composite sheet with a binder solution. The fabric is constructed at least partly from high twist multifilament yarn and the non-woven fiber web is constructed from fibers having an average fiber length of at least 20 mm, the number of fibers being at least 10 fibers/cm2. | ||||||
| 176 | Waterproof sheet for concrete structure | JP17835289 | 1989-07-11 | JPH0343541A | 1991-02-25 | ANNO TAKAMITSU; KATSUKAWA KANJI |
| PURPOSE: To surely attach a waterproof sheet adhesively to a concrete structure by sticking a granule of cement, which serves as a binding material of concrete, in press contact with a surface of a thermoplastic synthetic resin sheet. CONSTITUTION: A waterproof sheet 1 is formed by sticking a granular unit 3 of cement into press contact with the one side of a thermoplastic synthetic resin sheet 2. After a cement paste layer is applied to surfaces of a concrete structure, the upper of the cement paste layer is coated with the waterproof sheet 1 in a manner wherein an adhering surface of the granular unit 3 is brought into contact with the cement paste layer. COPYRIGHT: (C)1991,JPO&Japio | ||||||
| 177 | JPH02504373A - | JP50769688 | 1988-07-27 | JPH02504373A | 1990-12-13 | |
| 178 | Laminate unwoven cloth | JP9924488 | 1988-04-21 | JPH01271513A | 1989-10-30 | MIYAZAKI YOSHITOMO; NISHIMURA ATSUSHI; KATO TAKASHI |
| PURPOSE: To provide both the water exhausting property owing to conventional unwoven cloth and high strength at low strain compatibly by forming a laminate unwoven cloth from a knit textile layer of plastic multi-filaments, which have specified modulus of tensile elasticity and tensile strength, and an unwoven cloth layer of plastics. CONSTITUTION: A laminate unwoven cloth layer is prepared by laminating and binding together a knit textile layer and an unwoven cloth layer, wherein the knit textile layer consists of plastic multi-filaments, used at least in one direction, which are an elongated substance of preferably superhigh molecular polyethylene having a modulus of tensile elasticity over 20 GPa, favorably over 50 Pga, by the testing method according to JIS L-1013 and also a tensile strength over 1.2 GPa, desirably over 1.5 GPa, while the unwoven cloth layer as later named component is prepared by arranging at random plastic long or short fibers, preferably long. COPYRIGHT: (C)1989,JPO&Japio | ||||||
| 179 | High-tenacity flexible leathery material and production thereof | JP21227985 | 1985-09-27 | JPS6278281A | 1987-04-10 | HONDA YUZURU; FUJII TAKEO; WATANABE KOJI |
| PURPOSE:A leathery material, obtained by firmly entangling specific ultrafine fibers and a hard twisted knitted or woven fibric so as to give an unseparable and integrated material and holding the form with a high polymer binder and having a high tenacity, low elongation and improved abrasion characteristic and rich in flexibility. CONSTITUTION:A web ultrafine fibers or fibers capable of forming the ultrafine fibers having <=0.8 denier and >=20mm length is placed on a hard twisted knitted or woven fabric, preferably a woven fabric, prepared by using hard twisted yarns having 700-4,000T/m, particularly 1,500-4,000T/m number of twists as warps and wefts and having 20-200g/m<2>, particularly 30-150g/m<2> basis weight and needle punched to firmly entangle the nonwoven fabric with the knitted or woven fabric. Latent torque of the knitted or woven fabric is, as necessary, unwound by treatment with hot water or dry heat treatment and a high polymer binder, e.g. a polymer having rubber-like elasticity such as polyurethane or SBR, is applied to the resultant fabric to afford the aimed leathery material. The ratio of the knitted or woven fabric to the nonwoven fabric is preferably <=70wt%, particularly 10-50wt%. | ||||||
| 180 | FRP前駆体、積層板、金属張積層板、プリント配線板、半導体パッケージ、及びそれらの製造方法 | JP2017001134 | 2017-01-13 | JPWO2017122820A1 | 2018-11-01 | 登坂 祐治; 斉藤 猛; 中村 幸雄; 佐々木 亮太; 清水 浩 |
| たとえ金属箔の厚みが40μm以下であったとしても、表面うねりが小さく、且つ光点の少ない金属張積層板を提供し得るFRP前駆体を提供すること、並びに、該FRP前駆体を含有する積層板、該積層板上に金属箔を有する金属張積層板、該金属張積層板に回路パターンが形成されたプリント配線板、該プリント配線板を含有する半導体パッケージ、並びにそれらの製造方法を提供する。該FRP前駆体は、その両面において表面うねりが12μm以下であるFRP前駆体である。 | ||||||
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