子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | 电晕屏蔽装置 | CN201280066302.8 | 2012-11-23 | CN104040841A | 2014-09-10 | 托马斯·希尔丁格; 卢德格尔·可丁; 马塞洛·杰克大席尔瓦; 若昂·菲瑞尼克德荣; 卡米拉·多斯·桑托斯·宫卡维 |
| 本发明涉及一种用于在旋转的电气设备中的电导体的电晕屏蔽装置,包括:外电晕屏蔽装置和相邻于该外电晕屏蔽装置安装到电导体的高压绝缘装置上的端部电晕屏蔽装置;以及具有有限的导电率的条带,该条带围绕电导体的高压绝缘装置布置并且被浸渍树脂。本发明的特征在于,在外电晕屏蔽装置和端部电晕保护装置的条带之间的过渡区域中,至少在高压绝缘装置和条带之间浸渍具有有限的导电率的油漆。 | ||||||
| 42 | 图形制品 | CN201280038368.6 | 2012-07-30 | CN103732416A | 2014-04-16 | 罗纳德·S·斯蒂尔曼; 约翰·A·尼尔森; 基思·R·莱昂 |
| 本专利申请涉及可用作图形膜的制品。具体地讲,本专利申请涉及包括膜层和与所述膜的至少一个表面相邻的油墨层的制品,所述膜层包含聚合物共混物,所述聚合物共混物包含热塑性聚氨酯和纤维素酯。在一些实施例中,所述纤维素酯为醋酸丁酸纤维素。在一些实施例中,所述纤维素酯为醋酸丙酸纤维素。 | ||||||
| 43 | 涂布纸张的方法 | CN200980147898.2 | 2009-09-22 | CN102227459B | 2014-01-15 | G·斯库平; R·卢斯; A·菲斯尔; K·涅瓦莱妮恩 |
| 本发明涉及一种涂布纸张的方法,其特征在于使用根据EN ISO1133(190℃,2.16kg重量)的熔体流动速率(MVR)为3至50cm3/10分钟的一种可生物降解的脂肪族-芳香族聚酯。 | ||||||
| 44 | 基于手性液晶前体的复合标记物 | CN201180058599.9 | 2011-12-06 | CN103249810A | 2013-08-14 | A·卡利加里; T·若赞 |
| 本发明涉及一基底,该基底上具有包含一固化的手性的液晶前体组合物之标记物或层,其中该手性液晶前体组合物包括至少一种盐,该盐与不包含该至少一种盐之固化的组合物所展现之选择性反射带的位置相比改变了由这种固化的组合物所展现之选择性反射带的位置,并且其中由一或多种可聚合的单体构成的改性树脂被布置在该基底与该标记物或层之间并且与该标记物或层在其一或多个区域上相接触,该改性树脂改变了在该基底上在该一或多个区域中由包含该至少一种盐的固化的手性液晶前体组合物所展现的选择性反射带的位置。 | ||||||
| 45 | 金属微粒复合体及其制造方法 | CN201180026460.6 | 2011-05-20 | CN102947688A | 2013-02-27 | 梶川浩太郎; 榎本靖; 松村康史; 新田龙三 |
| 本发明的纳米复合体(10)具备基质树脂(1)、固定于该基质树脂(1)的金属微粒(3)、固定于部分或全部的金属微粒(3)的结合化学种(7)、和介由该结合化学种(7)间接地固定于金属微粒(3)的金属微粒(9)。至少一部分的金属微粒(3)具备包埋在基质树脂(1)中的部位和露出于基质树脂(1)的外部的部位(露出部位(3a)),在该露出于基质树脂(1)的外部的部位上固定有结合化学种(7)。 | ||||||
| 46 | 用于涂覆导管或气囊导管的方法和装置 | CN201080026763.3 | 2010-06-16 | CN102802816A | 2012-11-28 | H-G·诺伊曼; M·布尔梅斯特 |
| 本发明涉及一种用于有针对性地涂覆导管的方法和装置。本发明的目的在于,发展能够连续、均匀地涂覆导管和气囊导管的一种方法和一种装置。在此应用了市场上通用的、不必特殊预处理的导管。根据本发明的用于涂覆导管或气囊导管的方法的特征在于:a.利用一包含有被量取出的量的涂覆溶液的装置以相同的距离完全或几乎完全地弧形包围所述导管;b.使所述涂覆溶液完全充满所述导管与所述装置之间的空间并因此在轴向的分部段上完全弧形包覆所述导管;c.使所述装置在轴向方向上多次运动经过所述导管的表面;以及,d.在各个涂覆过程之间对被涂覆的涂覆溶液进行有针对性的部分干燥。 | ||||||
| 47 | 聚电解质络合物用于制备具有隔氧特性的聚合物膜的用途 | CN201080037543.0 | 2010-08-17 | CN102481597A | 2012-05-30 | C-E·辛皮努; T·布莱纳; D·俄班; K-H·舒马赫; V·沙德勒; H·迪赫尔; H·塞弗 |
| 本发明涉及聚电解质络合物用于为由聚合物膜制得的包装材料提供隔氧层的用途。所述聚电解质络合物的聚合物构成组分以聚合形式施用于所述聚合物膜。所述聚合物膜或用包含分散的聚电解质络合物的、通过水包水乳液聚合而制备的水分散体涂布,或用包含由阴离子聚合物和阳离子表面活性剂制备的聚电解质络合物的组合物涂布,或所述聚合物膜用至少三个交替层涂布,其中两个相邻层中的一层包含阴离子聚电解质构成组分而这两个相邻层中的另一层包含阳离子聚电解质构成组分,并且聚电解质络合物在所述交替层的相互相邻的界面上形成。 | ||||||
| 48 | 于汽车组件上形成固化涂料组合物的方法 | CN201080028547.2 | 2010-06-24 | CN102458691A | 2012-05-16 | D·克兰菲尔; K·E·古托夫斯基 |
| 本发明提供一种于汽车组件上形成固化涂料组合物的方法。该方法利用包括可自由基聚合化合物及有机硼烷引发剂的涂料化合物且包括将该涂料组合物施加至该汽车组件的步骤。该有机硼烷引发剂与具有碳主链及两个有机硼烷络合结构部分的双官能非环状封闭剂络合。该两个结构部分彼此不同且选自胺结构部分、硫醇结构部分及膦结构部分。此外,该两个结构部分彼此由2至4个碳原子隔开,以增加该封闭剂对该有机硼烷引发剂的亲核性。使该有机硼烷引发剂自该封闭剂解络合,从而形成自由基,该自由基用于使该可自由基聚合化合物聚合并使该涂料组合物于该汽车组件上固化。 | ||||||
| 49 | 涂布纸张的方法 | CN200980147898.2 | 2009-09-22 | CN102227459A | 2011-10-26 | G·斯库平; R·卢斯; A·菲斯尔; K·涅瓦莱妮恩 |
| 本发明涉及一种涂布纸张的方法,其特征在于使用根据EN ISO1133(190℃,2.16kg重量)的熔体流动速率(MVR)为3至50cm3/10分钟的一种可生物降解的脂肪族-芳香族聚酯。 | ||||||
| 50 | 用于结合活性分子到一个载体上的方法、通过所述方法获得的活性构件以及用于实施所述方法的化学组合物 | CN200880130878.X | 2008-08-13 | CN102131593A | 2011-07-20 | 让-弗朗索瓦·法菲特; 乔治·安图内斯; 菲利佩·梅雅德 |
| 本发明涉及一种用于将活性分子(30)结合到一种载体(2)上的方法,这些分子具有对抗不希望的生物或现象,或促进一种所希望的现象的活性。该方法包括:制备一种化学组合物,该组合物至少包含阳离子胶束(3),每个胶束包括至少一种活性分子(30);将该载体(2)用该阳离子胶束(3)化学组合物浸渍;将该活性分子(30)通过在这些阳离子胶束(3)和该载体(2)之间产生至少一个静电键而结合到该载体(2)上。本发明还涉及一种活性构件(1),包括一个载体(2)以及结合到所述载体(2)上的活性分子(30)并且具有对抗不希望的生物或现象或促进一种所希望的现象的活性。该活性构件(1)包括通过至少一个静电键结合到所述载体(2)上并且各自包括至少一个活性分子(30)的阳离子胶束(3)。 | ||||||
| 51 | 在低温下用疏水蛋白涂覆物体的方法 | CN200580002549.3 | 2005-01-14 | CN1909979A | 2007-02-07 | 里克·林克; 卡林·朔尔特迈耶 |
| 本发明涉及用疏水蛋白涂覆物体的方法。本发明提供了一种用于给物体表面提供疏水蛋白涂层的方法,其包括在任选地存在去垢剂的条件下,将物体的至少一部分与含疏水蛋白的溶液相接触以便在所述物体的表面上形成疏水蛋白层,以及将所述层暴露于一pH值,所述pH值小于7、优选地小于4、更优选地小于2。可以在室温左右进行所述接触,以及所述含疏水蛋白的溶液可以是分泌疏水蛋白的生物体的培养基的上清液。 | ||||||
| 52 | 缩短干燥时间的方法 | CN94106737.8 | 1994-06-21 | CN1102429A | 1995-05-10 | G·F·德里克; L·S·福兰克尔; E·R·高莫尔; A·克恩 |
| 本发明提供缩短湿涂料干燥时间的方法,其中将所述湿涂料与足以缩短干燥时间的量的至少一种暂时着色剂混合,将该混合物涂布于底物上,并干燥该涂料。所述暂时着色剂例如可以是对pH敏感着色剂或光漂白着色剂。 | ||||||
| 53 | COATING COMPOSITION FOR VEHICLE INTERIOR MEMBERS, VEHICLE INTERIOR MEMBER, AND METHOD FOR MANUFACTURING VEHICLE INTERIOR MEMBER | US16395378 | 2019-04-26 | US20190249027A1 | 2019-08-15 | Yan Sheng Cedric Chin; Shun Saito; Shuhei Ochi |
| The object of the present invention is to provide a coating composition for vehicle interior members excellent in scratch resistance and resistance to sunscreen staining, a vehicle interior member having a cured film formed from the composition, and a method for manufacturing the vehicle interior member.The coating composition for vehicle interior members of the present invention comprises a fluorinated polymer having units based on a fluoroolefin and units based on a monomer having a crosslinkable group, a fluorine-free polymer having crosslinkable groups, and a curing agent, and the glass transition temperature of the fluorinated polymer is 50° C. or above. | ||||||
| 54 | PATTERN-FORMING METHOD, AND COMPOSITION | US16057017 | 2018-08-07 | US20180342387A1 | 2018-11-29 | Hiroyuki Komatsu; Tomohiro Oda; Masafumi Hori; Takehiko Naruoka; Tomoki Nagai |
| A pattern-forming method includes: forming a pattern on an upper face side of a substrate; applying a first composition to a sidewall of the pattern; forming a resin layer by applying a second composition to an inner face side of the sidewall of the pattern coated with the first composition; allowing the resin layer to separate into a plurality of phases; and removing at least one of the plurality of phases. The first composition contains a first polymer. The second composition contains a second polymer. The second polymer includes a first block having a first structural unit and a second block having a second structural unit. The polarity of the second structural unit is higher than the polarity of the first structural unit. Immediately before forming of the resin layer, a static contact angle θ (°) of water on the sidewall of the pattern satisfies inequality (1). α ≥ θ ≥ α + β 2 ( 1 ) | ||||||
| 55 | PHOTOCURABLE COMPOSITION TO BE USED ON FINGERNAILS OR ARTIFICIAL NAILS, AND METHOD FOR COATING BY USING SAME | US15774415 | 2016-10-26 | US20180325789A1 | 2018-11-15 | Koichi TAKEMOTO |
| A photocurable composition for a nail or artificial nail which can form a cured product exhibiting excellent durability (adhesion maintainability to nails). In addition, the present invention provides a photocurable composition for a nail or artificial nail which emits a weaker odor, generates less heat at the time of curing, and can form a cured product exhibiting excellent surface curability. In addition, the present invention provides a photocurable composition for nail or artificial nail which can form a cured product having an excellent shear adhesive force. The photocurable composition for nail or artificial nail according to the present invention contains the following components (A) to (D): component (A): a urethane-modified (meth)acrylic oligomer; component (B): a (meth)acrylamide monomer; component (C): a (meth)acrylic monomer having an acidic group; and component (D): a photoinitiator. | ||||||
| 56 | CORE-SHELL NANOPARTICLES WITH MULTIPLE CORES AND METHOD FOR FABRICATING THEM | US15960115 | 2018-04-23 | US20180238868A1 | 2018-08-23 | Chuan-Jian ZHONG; Hye-Young PARK |
| The present invention is directed toward core-shell nanoparticles, each comprising a ligand-capped metal shell surrounding a plurality of discrete, nonconcentric, metal-containing cores. Methods of making and using these nanoparticles are also disclosed. | ||||||
| 57 | Variable Cross-Section Compliance Mechanism | US15381644 | 2016-12-16 | US20180169687A1 | 2018-06-21 | Dhananjay B. Vasa; John E. Miller; Silas Lawton Studley; Shane E. Arthur; Kyle S. Biondich; Bennett M. Moriarty; Raymond C. Eng; Matthew H. Mellin |
| A surface treatment support structure assembly for treating a contoured surface includes a support structure array formed from a plurality of base structures, each base structure being operably coupled with respect to one another and configured to slide along a longitudinal axis and rotate about a laterally translating axis which is perpendicular to the longitudinal axis. The support structure array further includes at least one applicator head coupled to each base structure of the support structure array, each of the at least one applicator head being configured to treat the contoured surface. Additionally, a base structure actuator is operatively coupled to and configured to manipulate each base structure along the longitudinal axis and the laterally translating axis such that the support structure array is adjusted relative to the contoured surface. | ||||||
| 58 | EXTRUSION COATING OF ELONGATED SUBSTRATES | US15885206 | 2018-01-31 | US20180154621A1 | 2018-06-07 | Tony Wayne Helton; Steven Lee Stafford; Aaron David Grills; Subramanian Easwaran Iyer |
| The present disclosure relates to extrusion coating systems, extrusion coated substrates, and processes for making the same. In some aspects, extrusion coating systems as described herein may include an at least partially insulated outlet wall, which may facilitate production of coated substrates exhibiting a very desirable surface texture and appearance. Coated substrates of the present invention may be utilized in a variety of end applications, including, but not limited to, interior and exterior construction materials for homes, buildings, and furniture. | ||||||
| 59 | PROPPANT SAND COATING FOR DUST REDUCTION | US15866554 | 2018-01-10 | US20180127646A1 | 2018-05-10 | David P. Zielinski; Emery Yuhas; Yanan Chen; Derick Henderson; Mark Conner |
| The present invention provides for coating proppants, such as sand, with a resin-containing dispersion which dramatically reduces the dust generated during handling, for example in hydraulic fracturing, by protecting the surface of the particle from abrasion and degradation. Such resin-containing dispersion coated-sand may also reduce the wear on metal parts used in transporting such proppants. | ||||||
| 60 | COMPOSITE STRUCTURE HAVING MODIFIER MATERIAL PRINTED THEREON | US15822125 | 2017-11-25 | US20180073167A1 | 2018-03-15 | Samuel J. Meure; Christopher A. Howe |
| A composite fiber may include at least one reinforcing filament formed of a first material. A second material maybe systematically deposited in a printed onto the at least one reinforcing filament such that at least one of a length, a width, and a thickness of the second material varies across a surface of the at least one reinforcing filament. The printed pattern may alter one or more properties of a composite structure containing the composite fiber. | ||||||
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