序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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121 | Method of manufacturing a water-repellent laminate | JP2008513581 | 2006-05-22 | JP2008545555A | 2008-12-18 | ヘルメケ、マリエッタ・ビー. |
本発明は、ホットメルト湿分硬化接着剤を一次基体に適用し、かつ積層の前に撥水材料で処理した二次基体を一次基体に結合する撥水性積層体の製造法に関する。 接着剤組成物はポリオール成分から形成したホットメルト湿分硬化ポリウレタンプレポリマー及びポリイソシアネートを含む。 ポリオール成分は、数平均分子量が約500〜約8,000の第一ポリエーテルポリオール、融点が約40℃未満の第一ポリエステルポリオール又は分子量が約200〜約1,000の第二ポリエーテルポリオール、及び融点が約40℃〜約120℃の結晶性ポリエステルポリオールを含む。
【選択図】 なし |
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122 | Filtration media for filtering particulates from a gas stream | JP2007549631 | 2005-12-28 | JP2008525671A | 2008-07-17 | スー,ハジエウン; リム,ヒユン・スング; ワイズマン,ビー・リン |
第1ポリマーから電気ブローされたナノファイバーのウェブを、ウェブ間に接着剤の不存在下に、相容性材料から紡糸されたナノファイバーより大きい平均直径の繊維を含んでなる第1の支持ウェブ上へ付着させ、そしてウェブを一緒に溶剤接合することによって形成される複合布。 | ||||||
123 | Fiber composite having an adhesive base fabric having both surfaces coated | JP2007544944 | 2005-12-06 | JP2008522869A | 2008-07-03 | フェスティノ,ヴァンサン; レフェブル,ジャン |
本発明は、第1繊維層、第2繊維層、および両繊維層の接着を目的とした基布を備える繊維複合材に関するものである。 該基布は第3繊維層を有し、その両面に熱粘着性網状物がコーティングされている。 該基布は、上記第1・第2繊維層の間に挿入され、両繊維層は、各々片面が熱粘着性網状物に積層され、それによって第1・第2繊維層が接着する。 | ||||||
124 | Method of manufacturing the antimicrobial fabrics and antibacterial fabric | JP2007536265 | 2005-10-14 | JP2008517171A | 2008-05-22 | ジョージ アブラハム、; イアン エイチ. ディスレイ、; サミール ナシフ、 |
ガス浸透性布地の製造に有用な抗菌性繊維を、ポリマー性および抗菌性の素材を共押し出しすることによって製造する。 繊維は抗菌性布地材料への提供のために、様々な組合せで混合しうる。
【選択図】図1 |
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125 | Enhanced absorbent multi-layer fabric and a method of manufacturing the same medical device | JP2007537973 | 2005-10-17 | JP2008516819A | 2008-05-22 | カリライ・サイミイ; ゴーマン・アン・ジェシカ; シェティー・ドゥハヌラージ・エス; ダーナラージ・スリデビー; ドゥ・ヒープ; ペンダカー・サンヨグ・マノハー; ムーア・ジェリー |
【課題】医療処置に関連し、第2の吸収性織布または編地によって強化された第1の吸収性不織布を有する、強化された吸収性複層布を使用する。
【解決手段】本発明は、第2の吸収性織布または編地によって強化された第1の吸収性不織布を含む、強化された吸収性複層布、および、この複層布を製造する方法に向けられている。 さらに詳しくは、第1の吸収性不織布は、脂肪族ポリエステルのポリマー、コポリマー、または、それらの混合物を含有する繊維を含み、第2の吸収性織布または編地は、酸化された再生セルロース繊維を含む。 【選択図】なし |
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126 | Speaker for the member and a method of manufacturing the same | JP2005315875 | 2005-10-31 | JP4059265B2 | 2008-03-12 | 昌弘 吉田; 武士 藤谷 |
127 | Composite material strip with resilient and non-resilient regions | JP2005310064 | 2005-10-25 | JP2007001285A | 2007-01-11 | BALDAUF GEORG; BADER HERBERT; LEUDERS JOSEF; SCHONBECK MARCUS |
<P>PROBLEM TO BE SOLVED: To provide a composite material strip which has improved tensile strength and high resiliency and can be manufactured at a low cost and with design freedom, and a method for manufacturing this composite material strip. <P>SOLUTION: Each leaf strip 5 is bound together for each one fleece material coat 6 made of an elastic spun bonded nonwoven fabric material and a laminate strip 4. The laminate strip 4 is at least partially stuck with a planar fleece material layer 2, on the leaf side of the laminate strip. In addition, the space between the laminate strips 4 is bound with the planar fleece material layer 2. Besides, a fleece material is present in the form of a fleece material strip 7, and these fleece material strips are directed in parallel with the laminate strip 4. Further, the fleece material strip 7 overlaps the fleece material coat 6 of the laminate strip 4 in the edge part region of the laminate strip 4. <P>COPYRIGHT: (C)2007,JPO&INPIT | ||||||
128 | Laminated sheet and its manufacturing method | JP2003410205 | 2003-12-09 | JP2005169705A | 2005-06-30 | SUZUKI NARIHITO; ISHIDA MASARU; HARASHIGE MASAHIRO |
<P>PROBLEM TO BE SOLVED: To provide a laminated sheet prevented from curling without increasing the use amount of a material and improved in the adhesive strength between respective layers. <P>SOLUTION: The laminated sheet 1 has a base material layer 2 and the first and second reinfcorcing material layers 3 and 4 respectively laminated to the upper and rear surfaces of the base material layer 2. The respective reinforcing material layers 3 and 4 are composed of the same kind of a thermoplastic resin and each of them is obtained by expanding a film, which has a plurality of parallel slits formed thereto and is stretched in the slit direction, in the direction right-angled to a stretching direction to form a net-like structure. The reinforcing material layers 3 and 4 are laminated to the base material layer 2 by thermal pressure bonding so that the mutual stretching directions of both layers are allowed to cross each other at a right angle. <P>COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
129 | Adsorption filter material with high adsorption capacity and low breakthrough behavior | JP2004100062 | 2004-03-30 | JP2004314064A | 2004-11-11 | BLUECHER HASSO VON; OUVRY LUDOVIC; KAEMPER STEFAN; MOSKOPP MICHAEL; RUITER ERNEST DE DR; BOEHRINGER BERTRAM |
PROBLEM TO BE SOLVED: To provide an adsorption filter material or a surface filter material suitable for producing every kind of protective material such as a protective clothing, an NBC protective clothing in particular, protective gloves, protective cover, and for other filtering use, e.g., an air filter or medical use, or surface filter material, i.e., flat type filter material. SOLUTION: This adsorption filter material 1 is used for producing all kinds of protective adsorption materials, and is provided with a first layer 2, a second layer 3 and an adsorption layer 4 disposed between the first and second layers 2, 3. The adsorption layer 4 has a first activated carbon layer 5 having granular and/or spherical activated carbon. The first activated carbon layer 5 further contains activated carbon of activated carbon fiber form. The adsorption layer 4 contains a second activated carbon layer 6 having activated carbon of activated carbon fiber form. COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
130 | And a method for manufacturing the elastic laminate structure | JP2000507526 | 1998-07-31 | JP2001514093A | 2001-09-11 | ロバート オーレット,ウィリアム; ルイス バロン,ダニエル |
(57)【要約】 本発明は、2つの織物担持層(37、38)の間で一体的に熱結合したオープンセル・ポリマー製メッシュ(36)を有する弾性ラミネート構造体及びこのようなラミネートの製造方法に関する。 | ||||||
131 | Production of dimensionally stable woven fabric cloth | JP8372399 | 1999-03-26 | JP2000170073A | 2000-06-20 | LENFERINK ROBERTUS GERARDUS; VAN DREUMEL WILHELMUS HENDRIKU |
PROBLEM TO BE SOLVED: To obtain a woven fabric cloth having a high dimensional stability by heating a woven fabric strip on its conveyance, directly adhering a thermoplastic filmstrip therewith under a pressure and then rapidly cooling. SOLUTION: This method for producing a dimensionally stable woven fabric cloth is provided by conveying a fibrous woven fabric strip 1 having a tensile strength such as that of an aramide fiber, a glass fiber, a carbon fiber or the like from a feeding roll 3 in an arrow mark 2 direction, guiding the above woven fabric strip 2 to a deflecting roller 5 in a prescribed angle directly after passing through an infrared heating station 4, adhering a polyphenylene sulfide film strip 6 on the deflecting roller 5 under a non-heated state conveyed from a feeding roller 11 in an arrow mark 12 direction, melting the polyphenylene sulfide film with the residual heat of the above woven fabric strip 1 for impregnating it into the woven fabric strip, then conveying the woven fabric cloth 8 cooled to ≤100°C with a cooling roller 7 in an arrow mark 13 direction and winding it with a winding roller 9. COPYRIGHT: (C)2000,JPO | ||||||
132 | Expandable and contractable absorptive composite material and its production | JP32470788 | 1988-12-22 | JPH024362A | 1990-01-09 | AN MARII FUAARENKURUUGU |
PURPOSE: To make it possible to absorb and hold exudate and excrement by including an absorptive layer and an expandable and contractable layer between a liquid permeable layer and a liquid impermeable layer, stretch bonding this expandable and contractable layer to other layers and forming plural pleats within the respective layers at the point of the time of slackening. CONSTITUTION: A liquid permeable body side liner 4, a liquid permeable and expandable and contractable elastomer layer 6, an absorptive medium 8 and a liquid impermeable outer cover 10 are included in an expandable and contractable and absorptive composite material 2. Next, the liner 4, the elastomer layer 6, the absorptive assembly 8 and the cover 10 are combined and bonded. The composite material 2 is so slackened that the elastomer layer 6 restores the original form from the elongated state after the bonding. The liner 4, the absorptive medium 8 and the outer cover 10 are gathered in such a manner, by which the plural pleats 14 and plural air pockets 9 are formed on both sides of the elastomer layer 6 on the inner side or the inside of the composite material 2. | ||||||
133 | Thermal camouflage material | JP549384 | 1984-01-13 | JPS59139957A | 1984-08-11 | RARUSU KAARUSON; ERIKU DABURIYUU WARIN |
134 | Laminate for accessory and manufacture of laminate | JP21232583 | 1983-11-11 | JPS59115837A | 1984-07-04 | CHIYAARUZU II HIRU |
135 | Incised composite material for selective, multispectral reflection | US14157217 | 2014-01-16 | US09587913B2 | 2017-03-07 | Neil R. Williams; Gregory D. Culler |
Geometrically incised fabrics that control reflectance and transmission in the visible, thermal, nIR, SWIR, and microwave/millimeter bands of the electromagnetic spectrum are provided. The incised fabrics include incised flaps that move about a hinged attachment portion into open and closed configurations. The incised flaps may be oriented in patterns containing overlapping, inverted incised flaps, overlapping inverted and non-inverted incised flaps, or in block patterns of incised flaps. Selective transmission of electromagnetic waves can be modulated by the geometry of the incised flaps and the amount of tension applied to the incised fabric. The incised fabric includes a composite material including an asymmetric ePTFE laminate, a metalized layer, an ePTFE membrane layer, and a textile. A second ePTFE asymmetric laminate and a metal layer may be attached to the composite material to form a reversible composite. Incised fabrics may be used to form selective, multispectral reflective covers and garments. | ||||||
136 | INTERCEPTION DEVICE MADE FROM THERMOPLASTIC POLYURETHANE | US14434999 | 2013-10-10 | US20150266275A1 | 2015-09-24 | Dietrich Scherzer; Guenter Scholz; Eckehard Moritz |
The invention relates to an interception device for moving articles or persons based on thermoplastic polyurethane which is obtained via the reaction in each case of at least one of the following starting materials: (a) diisocyanate, (b) compound which is reactive toward isocyanate and which has a number-average molar mass (Mw) of from 0.500×103 g/mol to 10×103 g/mol, (c) chain extender which has a molar mass of from 50 g/mol to 499 g/mol, and also optionally (d) with use of catalyst, of conventional auxiliaries and/or (f) of additives, where the interception device comprises a foil or a network made of the thermoplastic polyurethane and retention devices between which the foil or the network has been stretched flat, and the thermoplastic polyurethane is transparent. The invention further relates to the use of thermoplastic urethane for producing interception devices, and to a production process for an interception device made of thermoplastic polyurethane. | ||||||
137 | Vapor permeable fabric constructs | US12875870 | 2010-09-03 | US08828487B2 | 2014-09-09 | Gregory L. Todt; Seckin Ozol; Rajesh Hemendra Shah |
This invention relates to protective, multi-layered, breathable fabric constructs. The constructs which are flexible employ a fabric layer and a breathable coating layer applied to the fabric. Under certain preferred embodiments, the fabric constructs also employ an energy dissipating fiber material disposed opposite the coating layer. Also, the present invention teaches a method of protecting a valuable or sensitive object from damage caused by corrosion, weather, bio mass, or other environmental related conditions using the fabric material. The fabric constructs may be post-formed using heat or other methods to create shaped-to-form covers. | ||||||
138 | Incised Composite Material for Selective, Multispectral Reflection | US14157217 | 2014-01-16 | US20140205798A1 | 2014-07-24 | Neil R. Williams; Gregory Culler |
Geometrically incised fabrics that control reflectance and transmission in the visible, thermal, nIR, SWIR, and microwave/millimeter bands of the electromagnetic spectrum are provided. The incised fabrics include incised flaps that move about a hinged attachment portion into open and closed configurations. The incised flaps may be oriented in patterns containing overlapping, inverted incised flaps, overlapping inverted and non-inverted incised flaps, or in block patterns of incised flaps. Selective transmission of electromagnetic waves can be modulated by the geometry of the incised flaps and the amount of tension applied to the incised fabric. The incised fabric includes a composite material including an asymmetric ePTFE laminate, a metalized layer, an ePTFE membrane layer, and a textile. A second ePTFE asymmetric laminate and a metal layer may be attached to the composite material to form a reversible composite. Incised fabrics may be used to form selective, multispectral reflective covers and garments. | ||||||
139 | Multi-functional body armor | US13322292 | 2011-03-23 | US08607684B2 | 2013-12-17 | Eric C. Hoenes |
A flexible, multi-functional, multi-ply material mix and device, capable of providing ballistic protection are herein presented. The device and material herein presented provide multiple electronic and ballistic functionality integrated into a soft body armor that is lighter in weight and more comfortable to wear than previously available alternatives. | ||||||
140 | WATERPROOF BREATHABLE FABRIC AND METHOD OF MAKING THE SAME | US13953614 | 2013-07-29 | US20130312905A1 | 2013-11-28 | Wayne Skankey; Jen Hsien Tin |
In various embodiments, a waterproof breathable (WPB) fabric and method of producing the same are provided wherein a WPB membrane is laminated to a first side of a fabric, the laminated fabric is then treated with a treatment agent, and the treated fabric is cured. The treatment agent may include at least one of an oleophobic (oil repellent) compound and/or a hydrophobic (water repellent) compound. In some embodiments, the hydrophobic compound may be a durable water repellent (DWR) treatment. The treatment agent may provide protection for the fabric by repelling oil-based and/or water-based substances. |