| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 硬涂膜的制造方法 | CN201380021513.4 | 2013-04-11 | CN104245156A | 2014-12-24 | 北条裕子 |
| 在通过溶液流延法制膜、含有1~20重量%的具有在制膜过程中集中于流延时的支承体侧的特性的增塑剂且含有作为消光剂的二氧化硅微粒、膜厚为15μm~30μm的薄膜光学膜(例如纤维素酯膜(41))中,在二氧化硅微粒的浓度大于薄膜光学膜整体的平均浓度的一侧的面涂布硬涂层(51)。 | ||||||
| 2 | 防眩性膜、偏振片和图像显示装置 | CN201180050262.3 | 2011-10-21 | CN103154781A | 2013-06-12 | 江口淳哉; 北村祐; 小久见尚一郎 |
| 本发明提供防眩性膜,该防眩性膜可维持硬涂性与防眩性,同时可极高水平地抑制面眩光的发生以及泛白的发生,能够得到高对比度的优异的显示图像。本发明的防眩性膜为在透光性基材的至少一个面上具有防眩层的防眩性膜,该防眩层在表面具有凹凸形状;该防眩性膜的特征在于,上述防眩层含有2种以上的微粒凝聚而成的凝聚体;以通过上述凝聚体在上述防眩层的表面形成凸部,从而形成上述防眩层表面的凹凸形状。 | ||||||
| 3 | 一种滋养蚕丝面膜 | CN201510727777.2 | 2015-10-30 | CN106619416A | 2017-05-10 | 王书正 |
| 本发明属于日用化学领域,具体公开了一种滋养蚕丝面膜。是由面膜液和面膜纸组成,所述面膜液由以下重量组分的原料组成:珍珠粉3‑5份、维生素3‑5份、人参5‑10份、酵素纳米粉1‑3份、大海浮石1‑3份、植物提取液5‑10份、植物精油3‑5份,所述面膜纸是由三层组成,基材层、蚕丝层、剥离层。本发明提供的滋养蚕丝面膜,面膜液采用植物、维生素、发酵纳米素多重营养物质,不仅可以达到普通面膜补水的效果,还可以滋养皮肤,促进细胞代谢,清除毒素,使毛孔细腻,皮肤有光彩,面膜纸采用三层材料,可以有效防止营养物质挥发,与皮肤接触的纤维素层含有胶原蛋白,可以为皮肤提供营养物质,使皮肤年轻有光泽。 | ||||||
| 4 | 硬涂膜的制造方法 | CN201380021513.4 | 2013-04-11 | CN104245156B | 2016-04-27 | 北条裕子 |
| 在通过溶液流延法制膜、含有1~20重量%的具有在制膜过程中集中于流延时的支承体侧的特性的增塑剂且含有作为消光剂的二氧化硅微粒、膜厚为15μm~30μm的薄膜光学膜(例如纤维素酯膜(41))中,在二氧化硅微粒的浓度大于薄膜光学膜整体的平均浓度的一侧的面涂布硬涂层(51)。 | ||||||
| 5 | 一种保暖磁性面料 | CN201510536032.8 | 2015-08-28 | CN105235305A | 2016-01-13 | 朱贵明 |
| 本发明公开了一种保暖磁性面料,包括:磁性贴片层、磁性微粒层、粘胶纤维层、棉纤维层,所述磁性微粒层位于棉纤维层的上层,且通过粘胶纤维层进行连接,所述磁性贴片层位于所述磁性微粒层的顶层,所述磁性微粒层包括磁性保健纤维。通过上述方式,本发明能够提供一种保暖磁性面料,所述保暖磁性面料能够引起磁性织物磁性大小的变化,从而能够起到交变理疗刺激作用,且对人体的损害最小,磁疗效果明显,能够增强人体机能及免疫力。 | ||||||
| 6 | 一种防水耐磨的复合纸栈板及其制备方法 | CN201510362502.3 | 2015-06-26 | CN104999742A | 2015-10-28 | 蒋金海 |
| 本发明公开了一种防水耐磨的复合纸栈板及其制备方法,它是将纸栈板与耐磨纤维、粘合剂、聚硅氧烷树脂、纳米碳酸钙复合加工而成,其中所述粘合剂由以下重量份的原料制成:羧甲基纤维素钠15~30份、松香甘油酯5~10份、铝酸脂偶联剂10~20份、聚氨酯4~12份、酚醛树脂5~15份、聚苯乙烯3~8份、45%~75%乙醇溶液40~60份。本复合纸栈板的制备方法是在传统纸栈板的基础上,通过粘合剂将耐磨纤维和纳米碳酸钙紧密结合到一起,然后在复合纸栈板的外表面喷上一层聚硅氧烷树脂,使制得的复合纸栈板,具有优异的耐磨性能和防水性能,抗压强度明显加大,其生产工艺简单,具有很好的经济价值。 | ||||||
| 7 | 图像显示装置用防眩片 | CN201280050449.8 | 2012-10-10 | CN103975258A | 2014-08-06 | 古井玄; 本田诚; 儿玉崇 |
| 本发明得到亮黑感、暗处黑色程度、在动画用途中防眩性优异、适合于实现高画质的防眩片。一种防眩片,在透明基体材料的至少一个面,具有包含粘合剂树脂、漫射粒子以及粘合剂微粒的防眩层,所述防眩片特征在于,该防眩层在与透明基体材料相反一侧的面具有凹凸,所述凹凸由基于在周围具有所述粘合剂微粒的密度高的局部存在层的所述漫射粒子、和/或所述漫射粒子的凝聚体的凸部形成,在以将可见光线从透明基体材料侧垂直地照射至所述防眩片时的正透射方向的亮度设为Q、以离开正透射30度的方向的亮度设为Q30、以将离开正透射+2度的方向的亮度与离开正透射+1度的方向的亮度连结的直线和将离开正透射-2度的方向的亮度与离开正透射-1度的方向的亮度连结的直线各自外推至正透射的透射强度的平均值设为U时,满足下述的(式1)和(式2):(式1)10<Q/U<36;(式2)Log10(Q30/Q)<-6。 | ||||||
| 8 | Adsorptionsfiltermaterial mit hoher Adsorptionskapazität und geringem Durchbruchverhalten | EP04000925.0 | 2004-01-17 | EP1468732A3 | 2006-02-15 | von Blücher, Hasso; Ouvry, Ludovic; Kämper, Stefan; Moskopp, Michael; de Ruiter, Ernest, Dr.; Böhringer, Bertram, Dr. |
Beschrieben wird ein Adsorptionsfiltermaterial, insbesondere zur Herstellung von Schutzmaterialien wie ABC-Schutzanzügen, mit einer ersten Schicht, einer zweiten Schicht und einer zwischen der ersten Schicht und der zweiten Schicht angeordneten Adsorptionsschicht, die eine erste Aktivkohleschicht mit korn- bzw. kugelförmiger Aktivkohle aufweist, wobei die erste Aktivkohleschicht zusätzlich Aktivkohlefasern aufweist und/oder die Adsorptionsschicht zusätzlich eine zweite Aktivkohleschicht mit Aktivkohlefasern aufweist.
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| 9 | セルロースアシレートフィルム、偏光板、及び液晶表示装置 | JP2015027801 | 2015-02-16 | JP2016151614A | 2016-08-22 | 名倉 正人 |
| 【課題】ヘイズが低く、かつ耐傷付き性に優れたセルロースアシレートフィルムを提供すること。また、上記セルロースアシレートフィルムを含む偏光板及び液晶表示装置を提供すること。 【解決手段】コア層とスキン層を有する多層のセルロースアシレートフィルムであって、スキン層にのみ一次粒径が0.1〜6μmの粒子を含有し、全ヘイズ値が3%以下であるセルロースアシレートフィルム、上記セルロースアシレートフィルムを有する偏光板、及び液晶表示装置。 【選択図】なし |
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| 10 | PANEL | US16317412 | 2017-05-24 | US20190242138A1 | 2019-08-08 | Guido SCHULTE |
| A panel having side edges for connection to a further panel in order to cover a surface of a room, includes an upper side, an underside, and at least four side edges. The panel has a multilayer structure including an elastic base layer, made entirely or predominantly of an elastically adjusted polyurethane, and above the base layer a top layer which compared to the base layer is less elastic. The top layer is pressed via an adhesive layer with the base layer to form the multi-layer structure. | ||||||
| 11 | TUNGSTEN OXIDE NANOSTRUCTURE THIN FILMS FOR ELECTROCHROMIC DEVICES | US15818566 | 2017-11-20 | US20180088430A1 | 2018-03-29 | John H. Roudebush; Lina Zhu; Daniel Giaquinta; Hugues Duncan; Howard Turner |
| A method of manufacturing a thin film is provided. The method includes providing a plurality of crystalline hexagonal tungsten trioxide particles, size-reducing the crystalline hexagonal tungsten trioxide particles by grinding to produce crystalline hexagonal tungsten trioxide nanostructures, and coating the crystalline hexagonal tungsten trioxide nanostructures onto a substrate to produce a thin film. An electrochromic multi-layer stack is also provided. | ||||||
| 12 | ANTIGLARE FILM, POLARIZER, AND IMAGE DISPLAY DEVICE | US13879535 | 2011-10-21 | US20130250414A1 | 2013-09-26 | Junya Eguchi; Tasuku Kitamura; Shoichiro Ogumi |
| Provided is an antiglare film in which occurrence of screen scintillation and white muddiness can be sufficiently prevented at a high level while maintaining hard coating properties and antiglare properties, and excellent display images with a high contrast can be provided. The antiglare film includes a light-transmitting substrate; and an antiglare layer having a surface roughness on at least one surface of the light-transmitting substrate, wherein the antiglare layer contains an aggregate composed of two or more types of fine particles, and the aggregate forms a projection of the surface of the antiglare layer to form a surface roughness on the antiglare layer. | ||||||
| 13 | Optical film, coating composition, polarizing plate and image display device | US11712459 | 2007-03-01 | US08057907B2 | 2011-11-15 | Hiroyuki Yoneyama; Yasuhiro Okamoto |
| An optical film, which comprises: a support; and a layer containing an electrically-conductive particulate material, in which an interior of the electrically-conductive particulate material is porous or hollow, wherein the optical film comprises a fluorine-containing silane compound. | ||||||
| 14 | Compositions and methods for manufacturing starch-based sheets | US09198921 | 1998-11-24 | US06200404B1 | 2001-03-13 | Per Just Andersen; Shaode Ong; Bruce J. Christensen; Simon K. Hodson |
| Compositions and methods for manufacturing sheets having a starch-bound matrix reinforced with fibers and optionally including an inorganic mineral filler. Suitable mixtures for forming the sheets are prepared by mixing together water, unmodified and ungelatinized starch granules, an auxiliary water-dispersible organic polymer, fibers, and optionally an inorganic mineral filler in the correct proportions to form a sheet having desired properties. The mixtures are formed into sheets by passing them between one or more sets of heated rollers to form green sheets. The heated rollers cause the auxiliary polymer to form a skin on the outer surfaces of the sheet that prevents the starch granules from causing the sheet to adhere to the rollers upon gelation of the starch. The green sheets are passed between heated rollers to gelatinize the starch granules, and then to dry the sheet by removing a substantial portion of the water by evaporation. The starch and auxiliary polymer form the binding matrix of the sheets with the fibers and optional inorganic filler dispersed throughout the binding matrix. The starch-bound sheets can be cut, rolled, pressed, scored, perforated, folded, and glued to fashion articles from the sheets much like paper or paperboard. The sheets are particularly useful in the mass production of containers, such as food and beverage containers. | ||||||
| 15 | Compositions and methods for manufacturing starch-based compositions | US09183895 | 1998-10-30 | US06168857A | 2001-01-02 | Per Just Andersen; Shaode Ong; Bruce J. Christensen; Simon K. Hodson |
| Compositions and methods for manufacturing sheets having a starch-bound matrix reinforced with fibers and optionally including an inorganic mineral filler. Suitable mixtures for forming the sheets are prepared by mixing together water, unmodified and ungelatinized starch granules, an auxiliary water-dispersible organic polymer, fibers, and optionally an inorganic mineral filler in the correct proportions to form a sheet having desired properties. The mixtures are formed into sheets by passing them between one or more sets of heated rollers to form green sheets. The heated rollers cause the auxiliary polymer to form a skin on the outer surfaces of the sheet that prevents the starch granules from causing the sheet to adhere to the rollers upon gelation of the starch. The green sheets are passed between heated rollers to gelatinize the starch granules, and then to dry the sheet by removing a substantial portion of the water by evaporation. The starch and auxiliary polymer form the binding matrix of the sheets with the fibers and optional inorganic filler dispersed throughout the binding matrix. The starch-bound sheets can be cut, rolled, pressed, scored, perforated, folded, and glued to fashion articles from the sheets much like paper or paperboard. The sheets are particularly useful in the mass production of containers, such as food and beverage containers. | ||||||
| 16 | MEMBRANES WITH TUNABLE SELECTIVITY | US15099289 | 2016-04-14 | US20170296979A1 | 2017-10-19 | Jacob Louis SWETT; Sarah M. Simon; Peter V. Bedworth |
| Some embodiments comprise membranes comprising a first layer comprising a porous graphene-based material; a second layer comprising a porous graphene-based material; a channel positioned between the first layer and the second layer, wherein the channel has a tunable channel diameter; and at least one spacer substance positioned in the channel, wherein the spacer substance is responsive to the environmental stimulus. In some cases, the membranes have more than two layers of porous graphene-based material. Permeability of a membrane can be altered by exposing the membrane to an environmental stimulus. Membranes can be used in methods of water filtration, immune-isolation, timed drug release (e.g., sustained or delayed release), hemodialysis, or hemofiltration. | ||||||
| 17 | ANTI-GLARE SHEET FOR IMAGE DISPLAY DEVICE | US14238488 | 2012-10-10 | US20140211316A1 | 2014-07-31 | Gen Furui; Makoto Honda; Takashi Kodama |
| An anti-glare sheet that exhibits excellent glossy black textures, blackness in dark locations, and anti-glare properties for dynamic images, and that is suited to the implementation of high quality images. The anti-glare sheet has, on at least one surface of a transparent substrate, an anti-glare layer comprising binder resin, diffusion particles, and binder particulates. The anti-glare sheet is characterized by the anti-glare layer having protrusions and recesses on the surface on the opposite side thereof to the transparent substrate, the protrusions and recesses being formed by protrusions based on agglomerations of the diffusion particles and/or diffusion particles having in the vicinity thereof a localized layer in which the density of binder particulates is high, and equation (1) and equation (2) being satisfied where Q is the luminance in the direction of regular transmission when visible light is perpendicularly irradiated on the anti-glare sheet from the transparent substrate side, Q30 is the luminance in a direction 30 degrees from regular transmission; and U is the average value of the transmission intensity obtained by respectively extrapolating, to a regular transmission, a straight line joining the luminance in a direction +2 degrees from regular transmission to the luminance in a direction +1 degree from regular transmission, and a straight line joining the luminance in a direction −2 degrees from regular transmission to the luminance in a direction −1 degree from regular transmission. 10 | ||||||
| 18 | LAMINATE FOR EYEGLASS FRAME WITH EMBEDDED DESIGN PATTERN AND MANUFACTURING METHOD THEREOF | US12853323 | 2010-08-10 | US20100314034A1 | 2010-12-16 | Yan Hui ZOU |
| A laminate with internal decorative pattern for eyeglass frames, formed by the application of heat and pressure comprising: a plurality of core layers of thermoplastic sheets printed with patterns by transfer printing; a first overlay layer of thermoplastic sheet; and a second overlay layer of thermoplastic sheet; wherein the core layers are sandwiched between the first overlay layer and the second overlay layer; the core layers may further enclose three dimensional articles or fluids for decorative or functional purposes. The process for manufacturing the laminate includes: preparing a plurality of core layers, a first overlay layer and a second overlay layer from thermoplastic sheets; printing patterns on the core layers by transfer printing; layering from top to bottom the first overlay layer, the core layers and second overlay layer; applying to the layer of sheets a temperature of 0° C. to 300° C. and a starting pressure of 0 atm to bond the layers together; and removing from the heat and pressure a laminate; wherein the process for manufacturing can further include steps of creating cavity in the core layers to enclose the three dimensional articles or fluids. | ||||||
| 19 | Optical film, coating composition, polarizing plate and image display device | US11712459 | 2007-03-01 | US20070207307A1 | 2007-09-06 | Hiroyuki Yoneyama; Yasuhiro Okamoto |
| An optical film, which comprises: a support; and a layer containing an electrically-conductive particulate material, in which an interior of the electrically-conductive particulate material is porous or hollow, wherein the optical film comprises a fluorine-containing silane compound. | ||||||
| 20 | Adsorption filter material with high adsorption capacity and low breakthrough behavior | US10825745 | 2004-04-16 | US07160369B2 | 2007-01-09 | Hasso von Blücher; Ludovic Ouvry; Stefan Kämper; Michael Moskopp; Ernest de Ruiter; Bertram Böhringer |
| An adsorption filter material used especially for producing protective materials, such as NBC protective suits, has a first layer, a second layer, and an adsorption layer arranged between the first layer and the second layer. The adsorption layer has a first activated carbon layer with granular or spherical activated carbon particles. The first activated carbon layer additionally contains activated carbon fibers and/or the adsorption layer additionally contains a second activated carbon layer with activated carbon fibers. | ||||||
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