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 |
|---|---|---|---|---|---|---|
| 21 | 制备聚酯的方法 | CN201010163015.1 | 2005-03-31 | CN101824141B | 2012-07-04 | 吴恒鹏; 单槛会; S·S·丁-李; 向中; E·B·冈萨雷斯; M·O·奈瑟 |
| 本发明涉及制备聚酯的方法,其中二酐与二醇反应。所得到的聚酯可以进一步与选自芳族氧化物、脂族氧化物、碳酸亚烃酯、醇和它们的混合物的化合物反应。 | ||||||
| 22 | 在硅氧烷水凝胶透镜上涂覆涂层的方法 | CN200780011119.7 | 2007-03-28 | CN101410441B | 2012-06-13 | 松泽康夫 |
| 本发明提供一种成本有效的制备硅氧烷水凝胶接触透镜的方法,所述硅氧烷水凝胶接触透镜具有与透镜非共价连接的LbL涂层并且具有优良的亲水性、完整性和耐久性。该方法包括在高温涂覆LbL涂层。 | ||||||
| 23 | 中空异形微粒、其制造方法、含有中空异形微粒的化妆品原料和树脂组合物 | CN201080003196.X | 2010-04-27 | CN102209747A | 2011-10-05 | 新谷聪; 石川文义; 斎藤千秋 |
| 本发明提供能够充分满足树脂成形体中的全光线透过率和光扩散性等光学特性的进一步提高、以及化妆品中的使用感、焦点柔和性和持续性等的进一步提高等近年来要求的高度化的中空异形微粒、其制造方法、及其用途。使用的中空异形微粒,其特征在于:表面(11)具有多个凹部(21),内部(31)具有一个中空部(41),表面(11)和中空部(41)通过沿长径(L1)方向的一条裂缝(51)相连,整体上呈纺锤形状,其中,长径(L1)的平均值为0.1~30μm,短径(L2)的平均值/长径(L1)的平均值=0.3~0.8。 | ||||||
| 24 | 制备聚酯的方法 | CN201010163015.1 | 2005-03-31 | CN101824141A | 2010-09-08 | 吴恒鹏; 单槛会; S·S·丁-李; 向中; E·B·冈萨雷斯; M·O·奈瑟 |
| 本发明涉及制备聚酯的方法,其中二酐与二醇反应。所得到的聚酯可以进一步与选自芳族氧化物、脂族氧化物、碳酸亚烃酯、醇和它们的混合物的化合物反应。 | ||||||
| 25 | 质子导电膜及其生产方法以及使用该质子导电膜的燃料电池 | CN200910160268.0 | 2004-02-05 | CN101709115A | 2010-05-19 | 野村茂树; 山内健司; 小间聪; 杉本俊哉; 长谷川平 |
| 制备质子导电膜的方法、由该方法生产的质子导电膜以及使用该质子导电膜的固体聚合物类型燃料电池。所述质子导电膜具有带硅氧共价键的交联结构并在膜中具有下列式(1)表示的含磺酸交联结构,所述方法特征在于它包括第一步,制备包括含巯基低聚物(A)的混合物,所述巯基低聚物(A)具有多个巯基和能够通过缩合反应形成Si-O-Si键的反应性基团;第二步,所述混合物形成膜;第三步,所述膜形式的混合物在催化剂的参与下进行缩合反应形成交联凝胶;和,第四步,通过氧化使膜中巯基转变成磺酸基。所述质子导电膜表现出高的离子导电性、它在高温时具有优异尺寸稳定性,而且即使在高温它也能够稳定工作。 | ||||||
| 26 | 在硅氧烷水凝胶透镜上涂覆涂层的方法 | CN200780011119.7 | 2007-03-28 | CN101410441A | 2009-04-15 | 松泽康夫 |
| 本发明提供一种成本有效的制备硅氧烷水凝胶接触透镜的方法,所述硅氧烷水凝胶接触透镜具有与透镜非共价连接的LbL涂层并且具有优良的亲水性、完整性和耐久性。该方法包括在高温涂覆LbL涂层。 | ||||||
| 27 | 具有整体粘合剂的硅酮尿套 | CN200580033944.8 | 2005-09-05 | CN101052475A | 2007-10-10 | H·L·尼尔森 |
| 使用氧化过程能够将粘合材料施加在硅酮上。可控制该过程,允许对硅酮结构进行选择性氧化处理,从而能够对管状结构的内侧进行处理。 | ||||||
| 28 | 将防护涂料沉积在聚合物底材上的方法和含有该防护涂料的组合物 | CN02810699.7 | 2002-02-19 | CN1518482A | 2004-08-04 | R·F·小维尔奇; G·A·维斯特; R·J·萨科曼诺 |
| 本发明涉及一种将聚对亚苯基二甲基聚合物涂料沉积在一种聚合物底材上的方法,为的是改善底材的耐化学性。该方法包括的步骤有:彻底处理该底物的表面部分,以除去任何污染物;通过化学气相沉积在已无污染物的表面部分沉积至少一层聚对亚苯基二甲基聚合物;和然后将至少一层的各层聚对亚苯基二甲基聚合物退火足够长的时间。本发明还涉及一种用于聚合物底材上的防护涂料的组合物,其含有至少一层与该聚合物底材结合的聚对亚苯基二甲基聚合物。该底材可以是硅橡胶键块。 | ||||||
| 29 | 트윈 중합에 의하여 얻을 수 있는 저-k 유전체 | KR1020107026143 | 2009-04-28 | KR101610978B1 | 2016-04-08 | 클리프안드레아스; 랑에아르노; 핸레한스요아힘 |
| 본발명은 a) 금속또는반금속을포함하는제1 단량체단위, 및 b) 화학결합을통하여상기제1 단량체단위에결합되는제2 단량체단위를포함하는 1 이상의트윈단량체를중합하여수득할수 있는유전체를포함하고유전율이 3.5 이하인유전층에관한것으로, 여기서중합은화학결합의파괴및 제1 단량체단위를포함하는제1 중합체와제2 단량체단위를포함하는제2 중합체의형성을포함하는트윈단량체의중합을수반하고제1 및제2 단량체단위는공통메카니즘으로중합된다. | ||||||
| 30 | 폴리에스테르의 제조 방법 | KR1020067023010 | 2005-03-31 | KR101178123B1 | 2012-09-07 | 유,헹펭; 샨,잰휘; 딩-리,슈지수; 시앙,종; 곤잘레즈,엘리조비.; 니서,마크오. |
| 본 발명은 디안하이드라이드가 디올과 반응하는 폴리에스테르의 제조 방법에 관한 것이다. 생성된 폴리에스테르는 방향족 산화물, 지방족 산화물, 알킬렌 카르보네이트 알콜 및 이들의 혼합물로부터 선택된 화합물과 추가로 반응할 수 있다. | ||||||
| 31 | 발포성 고무 조성물 | KR1020110101660 | 2011-10-06 | KR1020120036277A | 2012-04-17 | 메이어즈,페테르빌베르트레오니에자네트 |
| PURPOSE: An expandable rubber composition is provided to have excellent workability and compressive strain, and to have excellent mechanical properties, especially tear strength and fracture elongation. CONSTITUTION: An expandable rubber composition comprises an elastomer polymer including ethylene and an α-olefin derived unit, a hardening package, and a foaming agent. The foaming agent comprises a compound containing water of crystallization. The elastomer polymer comprises ethylene and a propylene derived unit. The elastomer composition comprises one or more kinds of compounds selected from a group consisting of a processing aid, filler, and a softener, stabilizer, and combinations thereof. A manufacturing method of foaming product comprises a step of foaming and hardening the elastomer composition. | ||||||
| 32 | Article comprising a polymeric substrate and a layer of silicone polymer | US14770910 | 2014-02-27 | US10131756B2 | 2018-11-20 | Jean-Marc Pernot |
| Disclosed is an article that includes at least one polymeric substrate assembled on at least one layer of silicone polymer, characterized in that at least one of the polymeric substrate or the layer of silicone polymer has been brought into contact with particles of titanium dioxide, magnesium oxide and/or zinc oxide, before assembly of the article, and in that at least one of the polymeric substrate or the layer of silicone polymer has been brought into contact with water before or after assembly of the article. Also disclosed is a method of preparing the article, as well as the use of particles of titanium dioxide, magnesium oxide and/or zinc oxide, for improving the adherence between a polymeric substrate and a layer of silicone polymer. | ||||||
| 33 | WATER BASED SILICONE COATING COMPOSITIONS | US15403315 | 2017-01-11 | US20180194966A1 | 2018-07-12 | Steven Poteet; Marc E. Gage; David J. Grulke |
| A high temperature coating includes a silicone resin, a mass of nanoclay particles dispersed in the silicone resin, a surfactant and water. | ||||||
| 34 | Tethered Organic Siloxy Network Film Compositions | US14517083 | 2014-10-17 | US20160108190A1 | 2016-04-21 | Adrien Pierre Cote; Brynn Mary Dooley; Anthony Wigglesworth |
| An organo siloxy network film composition including at least one type of tether molecule having a siloxy functionality; at least one type of building block having a siloxy functionality; wherein the tether molecule and the building block each have the same siloxy functionality; and wherein the siloxy functionality in the organo siloxy network film is derived from the same siloxy functionality on both the tether molecules and the building blocks. | ||||||
| 35 | MASS BASED ON GAUGED SAND AND ELASTIC BINDER | US14430535 | 2013-09-23 | US20150232638A1 | 2015-08-20 | João Policarpo Roquette Pinheiro De Melo |
| The present invention relates to a mass based on calibrated sand and elastic binder, and relates to the field of the industry of construction, more precisely dredging works, and coastline protection and/or sand movements. The present invention relates to a construction material based on calibrated sand and elastic binder which includes, for a plaque 50 cm in width, 75 cm in length and 1.5 cm thick, the following components: between 5000 g to 6500 g of calibrated sand, between 200 g to 360 g of silicone and between 0.4 l to 0.6 l turpentine. The invention refers also to a process for obtaining the above-mentioned material, including the following steps: the sand is blended with the mixture of silicone, liquefied and/or diluted with turpentine, the mixture is introduced in the desired mold for the intended shape, and, through the use of vibration and compaction of the mold the desired consistency is obtained. | ||||||
| 36 | Carbon nanotube or graphene-based aerogels | US13048040 | 2011-03-15 | US08975326B2 | 2015-03-10 | Lei Zhai; Jianhua Zou |
| An aerogel includes a plurality of supramolecular structures bound to one another. Each supramolecular structure includes a carbon nanotube (CNT) or graphene type structure having an outer surface, and a plurality of polymers or aromatic molecules secured to the outer surface of the CNT or graphene type structure. The plurality of polymers or aromatic molecules have at least one crosslinkable structure. The supramolecular structures are crosslinked together by chemical bonding between the crosslinkable structures. The polymers can be block copolymers including at least one conjugated polymer block and at least one block of a crosslinkable non-conjugated polymer that provides the cross linkable structure, where the conjugated polymer block is non-covalently bonded to the outer surface of the CNT or graphene type structure. | ||||||
| 37 | Silicone Urisheath with Integrated Adhesive | US14333515 | 2014-07-17 | US20140330230A1 | 2014-11-06 | Henrik Lindenskov Nielsen |
| Using an oxidative process it is made possible to apply an adhesive material to silicone. The process is controlled, allowing selective oxidative treatment to a silicone structure enabling treatment to the inside of a tubular structure. | ||||||
| 38 | Silicone urisheath with integrated adhesive | US11661987 | 2005-09-05 | US08815361B2 | 2014-08-26 | Henrik Lindenskov Nielsen |
| By using an oxidative process, it is possible to apply an adhesive material to silicone. The process is controlled, allowing selective oxidative treatment to a silicone structure, thus enabling treatment to the inside of a tubular structure. | ||||||
| 39 | Curable liquid composite light emitting diode encapsulant | US13211363 | 2011-08-17 | US08455607B2 | 2013-06-04 | Weijun Zhou; Binghe Gu; John W. Lyons; Allen S. Bulick; Garo Khanarian; Paul J. Popa; John R. Ell |
| A curable liquid polysiloxane/TiO2 composite for use as a light emitting diode encapsulant is provided, comprising: a polysiloxane with TiO2 domains having an average domain size of less than 5 nm, wherein the curable liquid polysiloxane/TiO2 composite contains 20 to 60 mol % TiO2 (based on total solids); wherein the curable liquid polysiloxane/TiO2 composite exhibits a refractive index of >1.61 to 1.7 and wherein the curable liquid polysiloxane/TiO2 composite is a liquid at room temperature and atmospheric pressure. Also provided is a light emitting diode manufacturing assembly. | ||||||
| 40 | Electrolyte membrane-forming curable resin composition, and preparation of electrolyte membrane and electrolyte membrane/electrode assembly | US11357205 | 2006-02-21 | US08232324B2 | 2012-07-31 | Toshio Ohba; Mitsuhito Takahashi |
| A curable resin composition comprising (a) a compound having at least one ethylenically unsaturated group and at least one ion conductive group, (b) a compound having at least two ethylenically unsaturated groups, (c) an organosilicon compound having at least two SiH groups, (d) a platinum group catalyst, and (e) a solvent is dried and cured by heating into a cured film having excellent ionic conduction and serving as electrolyte membrane. The electrolyte membrane and an electrolyte membrane/electrode assembly satisfy fuel cell-related properties including ionic conduction and film strength as well as productivity. | ||||||
QQ群二维码
意见反馈
意见反馈