| 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 | 一种防水卷材及其制造方法 | CN200680050336.2 | 2006-12-27 | CN101351334A | 2009-01-21 | 阿尔佛雷多·罗曼蒂尼 |
| 本发明公开了一种卷材,包括至少一个防水材料层(2,100),该防水材料层夹在第一纺粘织物层和第二纺粘织物层之间,其特征在于:所述第一纺粘织物层和第二纺粘织物层具有被防水材料覆盖的表面,并相对彼此横向偏移,从而在卷材的一侧,第一纺粘织物层的突出部(20)突出于第二纺粘织物层之外,而在另一侧,第二纺粘织物层的突出部(20)突出于第一纺粘织物层之外,所述防水材料层由塑料膜组成,塑料膜具有可以覆盖住所述突出部(20)的宽度。 | ||||||
| 162 | 吸音顶棚系统 | CN200680017714.7 | 2006-04-04 | CN101180441A | 2008-05-14 | B·L·斯平格; J·费莱吉; J·R·沃特斯; G·马丁 |
| 一种内部建筑系统,包括弯曲的吸音的自支撑复合板,该板区分并强调内部建筑空间,同时提供实质性的声吸收能力。复合板包括两层或更多层非自支撑的软纤维材料,和位于每个所述软纤维层之间的非连续的粘合层。该系统还包括用于将板安装到建筑结构上的安装零件。安装零件具有穿孔板片,该穿孔板片嵌入板中,板将零件的可见度最小化,同时提供了增强的承载能力。 | ||||||
| 163 | 用于管道防火的管道包裹物和方法 | CN200680004780.0 | 2006-01-20 | CN101120199A | 2008-02-06 | 乔治·W·弗罗斯特; 约翰·T·布雷迪; 布兰登·L·科茨 |
| 一种用于管道防火的制品,包括:由第一材料形成的第一层,包括不燃纤维材料;以及由第二材料形成的第二层,包括膨胀型材料。第一层与第二层相邻。该制品是非自支撑的,并具有第一敷设条件时小于大约3英寸的初始厚度、以及第二受热条件时的膨胀厚度。膨胀厚度大于初始厚度。在膨胀厚度下,制品符合如International Council of Building Officials(ICBO-ES)于2001年4月拟定的用于油脂管道封装组件的AC101验收规范的第5.5节。 | ||||||
| 164 | 耐撕裂收缩薄膜 | CN200580047304.2 | 2005-12-01 | CN101111370A | 2008-01-23 | A·韦罗基 |
| 一种收缩薄膜包括一个包括苯乙烯/丁二烯/苯乙烯嵌段共聚物的内层;和包括一种烯烃聚合物的第一外层和第二外层。可以任选地包括第一中间层和第二中间层,这些中间层包括一种熔体指数小于4.0的乙烯共聚物。替而代之,一种收缩薄膜包括一个包括一种熔体指数<4.0的乙烯共聚物的内层;各包括一种苯乙烯/丁二烯/苯乙烯嵌段共聚物的第一中间层和第二中间层;以及各包括一种烯烃聚合物的第一外层和第二外层。本发明的薄膜在纵向和横向中至少一个方向上,在240的自由收缩率为40%~80%,且埃尔曼多夫撕裂为70g/min~300g/mil。 | ||||||
| 165 | 负极活性材料和使用该负极活性材料的电池 | CN200510120328.8 | 2005-11-08 | CN1964109A | 2007-05-16 | 石原英贵; 水谷聪; 井上弘 |
| 提供具有高容量和优异循环特性的电池以及用于该电池中的负极活性材料。负极包括能够与锂反应的负极活性材料。负极活性材料包括锡、钴和碳作为元素,碳含量为9.9重量%至29.7重量%(包括端点),钴对锡和钴的总量的比为30重量%至70重量%(包括端点)。此外,通过小角X-射线散射测量的钴和锡的金属间化合物的晶相尺寸为10nm或更小。从而,在保持高容量的同时,可改进循环特性。 | ||||||
| 166 | 弹性地板衬垫及其制作方法 | CN200610081157.7 | 2006-05-23 | CN1869376A | 2006-11-29 | 费尔南多·斯托皮耶那 |
| 一种弹性衬垫,其用于地板(1),如用于运动活动的地板的人工草皮(1),其包括:第一层压结构(21、22)以及第二层结构(24、25),两层包绕其之间的囊(22a),所述的囊包含颗粒弹性材料(23)。结构(21、22;24、25)由无纺织物层(21、25)粘结到聚烯烃层(22、24)上形成。聚烯烃层(22、24)包围其之间的所述囊(22a)。所述的囊(22a)为具有正方形基层,侧边为20-60mm,一般为45mm,高度在20-40mm之间,一般为30mm。颗粒弹性材料(23)按5-20kg/m2充填在所述的囊(22a)内。所述的颗粒弹性材料(23)为回收轮胎粉碎颗粒,其大小在0.5-7.0mm之间。 | ||||||
| 167 | 带纤维加强层的橡胶产品及其制造方法 | CN200610058326.5 | 2006-03-01 | CN1840950A | 2006-10-04 | 栗本英一; 林秀典; 毛利贵行; 舟木健; 妹川征男 |
| 利用无甲醛的粘接剂,以与含甲醛的RFL相同或更大的粘接力使橡胶层和纤维加强层相粘接。橡胶内管(1)和橡胶中间层(2)以及橡胶外皮(3)例如由EPDM构成。第一纤维加强层(10)和第二纤维加强层(20),分别为将纤维线(11、21)编织或螺旋编织在橡胶内管(1)的外周和中间层(2)的外周上而成的,该纤维线(11、21)例如是对材料本身无极性的聚酯纤维制的捻纱线经环氧处理而赋予了极性的。在橡胶中间层(2)与第二纤维加强层(20)之间,以及第二纤维加强层(20)和橡胶外皮(3)之间,采用由三嗪硫醇以及二烯类橡胶构成的粘接剂进行粘接。 | ||||||
| 168 | 层叠软磁性构件的制造方法、软磁性片材的制造方法以及层叠软磁性构件的热处理方法 | CN200410039740.2 | 2004-03-16 | CN1530974A | 2004-09-22 | 若山胜彦; 桥本康雄; 柿沼朗; 长勤; 饭岛康; 贺屋雅诏; 田崎和则 |
| 通过层叠软磁性片材(1)、(11),生成绝缘层与软磁性金属层交替层叠的层叠软磁性构件(5)。此时,在得到软磁性片材(1)、(11)于层叠前的阶段或者在层叠软磁性片材(1)、(11)而得到层叠软磁性构件(5)之后根据热处理的目的等设定的条件施以热处理。在热处理时,也可以并用加压处理。另外,在赋予张力的状态下施以热处理时,可望磁特性的进一步提高。 | ||||||
| 169 | 容器前体及密封容器 | CN201621226980.8 | 2016-11-15 | CN207346297U | 2018-05-11 | 乌尔里希·阿勒夫; 托马斯·舒马赫; 诺伯特·彼得·赫佐格 |
| 本实用新型涉及一容器前体及密封容器,容器前体包括一层状复合物;其中层状复合物包括作为一层序列在一个方向从层状复合物的外表面到内表面a)一外聚合物层,b)一色彩的应用,c)载体层,和d)阻挡层;其中层状复合物形成一容器前体壁;其中壁a.至少部分环绕容器前体壁内部,且b.包括第一壁区域和第二壁区域;其中第一壁区域部分包括一层序列从内部到一第一层,一第二层,和一第三层,在每个层状复合物中;其中在第一壁区域第一层连接第二层,且第二层连接第三层。实用新型还涉及一密封容器,可包含从容器前体;且到一关闭容器具有上述层状复合物,第一和第二壁区域。 | ||||||
| 170 | Fiber-reinforced composite material with improved fire resistance, and structural component made thereof | US14363488 | 2012-12-05 | US10144200B2 | 2018-12-04 | Hans Luinge; Matthias Schuett; Geoff Gibson |
| A fiber-reinforced composite material includes a bulk portion with a bulk matrix having reinforcing fibers embedded therein, and a surface portion with a plurality of laminated first layers serving as “expanding layers”, which expand and/or delaminate during fire impact. The surface portion also includes a plurality of laminated second layers different from the first layers and serving as “barrier layers”. The expanding layers and barrier layers can be arranged in an alternating sequence. | ||||||
| 171 | High Performance Semi-Rigid Wall Protection System | US15927398 | 2018-03-21 | US20180272677A1 | 2018-09-27 | John Serafano |
| A wall protection system includes a backing layer, an intermediate layer, and a top layer. The intermediate layer is secured to the backing layer and includes a flexible polyvinyl chloride (PVC). The top layer is secured to the intermediate layer and includes a rigid PVC. In various aspects, the PVC of the intermediate layer is rigid relative to the PVC of the top layer. In certain aspects, a method of installing a wall protection system includes thermally bonding a rigid PVC layer to a flexible PVC layer. The method also includes securing a backing layer to the flexible PVC layer such that the rigid PVC layer is a top layer defining an outer surface of the wall protection system, the flexible PVC layer is an intermediate layer, and the backing layer defines an inner surface of the wall protection system. | ||||||
| 172 | High resistance panels (HRP) | US14586975 | 2014-12-31 | US10059077B2 | 2018-08-28 | Joe Ru He Zhao |
| A thermal insulation panel is consist of an impermeable barrier and backing, a surface of low emissivity, an adhesive, a mixture of phononic cocrystals at both sides, and a support material in a honeycomb structure in between two sides. The panel reduces heat transfer and has an overall thermal conductivity in order of 10−3 w/(m·K), and a density of 20-100 kg/m3. The panel can be cut to any sizes to meet requirements for installation, and can be stacked or piled up to meet the requirements of thickness and thermal resistance in application. | ||||||
| 173 | Tear resistant multilayer film | US15692162 | 2017-08-31 | US10040272B2 | 2018-08-07 | Richard Y. Liu; Stephen A. Johnson; John P. Purcell |
| A tear resistant multilayer film including pluralities of first and second layers is described. The first layers include a first polymer and the second layers include a second polymer. The first polymer is polyethylene terephthalate or a first ester block copolymer that includes polyethylene terephthalate blocks at a weight percent of the first ester block copolymer of at least 50 percent and further includes glycol-modified polyethylene terephthalate blocks. The second polymer is sebacic acid-substituted polyethylene terephthalate or a second ester block copolymer that includes sebacic acid-substituted polyethylene terephthalate blocks at a weight percent of the second ester block copolymer of at least 50 percent and further includes polyethylene terephthalate blocks or glycol-modified polyethylene terephthalate blocks. The tear resistant multilayer film includes a total of 6 to 300 first and second layers. | ||||||
| 174 | PLYWOOD ARTICLE | US15746636 | 2016-07-20 | US20180215972A1 | 2018-08-02 | Michael T. YANG; Johnathan FAY; Timothy SHREWSBRG |
| This disclosure provides a plywood article that is pre-cured or cured. The plywood includes a first wood veneer, a second wood veneer disposed opposite the first wood veneer and an adhesive composition disposed between the first wood veneer and the second wood veneer. The adhesive composition is either cured or not cured. Prior to cure, the adhesive composition consists essentially of an isocyanate component and Kaolin. After cure, the cured adhesive composition consists essentially of a self-polymerization product of the isocyanate component and the Kaolin. The Kaolin is present in an amount of from greater than 10 to 50 weight percent based on a total weight of the adhesive composition. Moreover, each of the first and second wood veneers independently has a moisture content of from 0 to 45 weight percent. | ||||||
| 175 | COVER GLASS AND GLASS LAMINATE | US15874357 | 2018-01-18 | US20180215659A1 | 2018-08-02 | Kazunobu MAESHIGE; Nobutaka AOMINE; Hiroyuki OKAWA; Kiyoshi TAMAI; Hitoshi ONODA; Makoto SANO; Yusuke KOBAYASHI |
| The present invention provides a cover glass and a glass laminate which are reduced in warpage, and have excellent scratch resistance, low reflecting properties and excellent optical properties. According to the present invention, a cover glass and a glass laminate which are reduced in glass warpage, retain the effect of scratch resistance, and have low reflecting properties and excellent optical properties can be provided by alternately superposing a film including a high-refractive-index material and a film including a low-refractive-index material, in given amounts. | ||||||
| 176 | STIMULANT INFUSED CAT SCRATCHER PRODUCTS | US15416241 | 2017-01-26 | US20180206451A1 | 2018-07-26 | Tracy Rogers; Jacob Dominguez; Andrew Murrer; Edgar Camara |
| A cat scratcher is either in the form of a rigid support and cat scratcher surface or in the form of a body of corrugated cardboard. The corrugated cardboard body typically has a plurality of corrugated subparts, each corrugated subpart being a corrugated sheet having top and bottom surfaces and planar sheets of kraft paper adhered thereto through the use of an aqueous-based adhesive, the aqueous-based adhesive including a catnip or silver vine hydrosol. This same adhesive can be used to adhere a cat scratcher surface to its rigid support. | ||||||
| 177 | Film lamination with flex-tails for a touch sensor | US15269235 | 2016-09-19 | US10007368B2 | 2018-06-26 | Jason D. Wilson; Mark Green; Bill Emery |
| Different lamination methods may be used to create a touch sensor with a darkened side of metalized film facing the user. One lamination method includes laminating a metalized film to an optically clear adhesive (OCA) layer such that an edge of the metalized film including the termination pads remain un-adhered to the OCA layer. Flex-tails may be bonded to the termination pads at a later time by bending up the un-adhered edge. Anisotropic Conductive Film (ACF) may be placed on the termination pads prior to laminating the metalized films. Flex-tails may be placed onto an OCA layer in a location where the termination pads on the metalized film will be located when laminated to the OCA layer. A strip of ACF may be placed on the flex-tail pads. The flex-tails may be bonded to the termination pads of the metalized film prior to the metalized film being laminated. | ||||||
| 178 | MULTILAYER MEMBRANE | US15577493 | 2016-06-01 | US20180147820A1 | 2018-05-31 | Charles LEYDER; Antoine DIGUET |
| A multilayer membrane is intended to be used as an envelope for a thermal insulation panel, in particular a VIP-type panel. The multilayer membrane includes a support layer, at least one planarizing layer defining a planarized surface, and at least one thin metallic layer. | ||||||
| 179 | Laminated body and pneumatic tyre using same | US15000402 | 2016-01-19 | US09969217B2 | 2018-05-15 | Shusaku Tomoi; Yuichi Hara |
| A laminate comprising at least one layer of a first thermoplastic resin composition alternately stacked with at least two layers of a second thermoplastic resin composition so that the outermost layers are the layers of the second thermoplastic resin composition, wherein the first thermoplastic resin composition comprises at least one selected from the group consisting of ethylene-vinyl alcohol copolymer and modified ethylene-vinyl alcohol copolymers, and the second thermoplastic resin composition has a different composition from the first thermoplastic resin composition, and wherein, in any adjacent pair of the layer of the first thermoplastic resin composition and the layer of the second thermoplastic resin composition, the layer of the first thermoplastic resin composition and the layer of the second thermoplastic resin composition have a specific tensile modulus ratio and a specific thickness ratio. | ||||||
| 180 | Diaphragm Dome, Method for Manufacturing The Same and Speaker | US15417208 | 2017-01-26 | US20180124518A1 | 2018-05-03 | Xun Di; Lipeng Ma; Ping Liang; Bin Zhao; Xudong Yan |
| The present disclosure disclose a diaphragm dome, the diaphragm dome includes a first carbon fiber layer and a second carbon fiber layer which are alternatively arranged by stacking, the first carbon fiber layer and the second carbon fiber layer are respectively a single-layer structure formed by an one-way extended carbon fiber bundle, an extending direction of the carbon fiber bundle of the first carbon fiber layer is perpendicular to an extending direction of the carbon fiber bundle of the second carbon fiber layer, and a thickness difference exists between the first carbon fiber layer and the second carbon fiber layer. In the diaphragm dome provided by the present disclosure, the material has larger specific strength, thus can reduce the thickness of the diaphragm dome, the carbon fiber layers of the diaphragm dome are well adhered, which is not readily layered, and has good water resistance. | ||||||
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