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 | 用于硅酸盐水泥混凝土的经表面处理的添加剂 | CN97180423.0 | 1997-12-09 | CN1239937A | 1999-12-29 | C·J·姆克尼; M·皮尔德舍; D·J·夏伊卢克 |
本发明是针对一种在包含硅酸盐水泥和水的粘结化合物硬化之前混入该化合物中的添加剂。该添加剂包含经表面处理的添加剂,该添加剂表面是经对添加剂有暂时性疏水作用的物质处理过的,该作用暂时使得该添加剂在混入化合物之后的一段时间内更加疏水,以致于在浇筑该化合物的过程中化合物所含的水较少被吸收至添加剂,由此能够使化合物具有可施工性,且以致于添加剂在浇筑化合物之后恢复其本有的性质,以使得在化合物的固化过程中添加剂参与该化合物。本发明还针对制备该添加剂的方法和制备包含该添加剂的粘结化合物的方法。 | ||||||
42 | 撥水性オルガノポリシロキサン材料 | JP2015509433 | 2013-05-02 | JP2015525246A | 2015-09-03 | カンペオール フレデリック; ディミトロヴァ タチアナ; ガレオーネ ファブリツィオ; ポール ルコンテ ジーン; マルトー レオン; サルヴァーティ サブリナ |
多孔質製品又は前記製品を与える組成物を撥水剤で処理することによって、前記製品の疎水性を向上させる方法であって、多孔質製品又は前記製品を与える組成物はマイクロカプセルの水性懸濁液で処理され、マイクロカプセルは撥水性オルガノポリシロキサンコア材と、シリカ単位を含むケイ素系ネットワークポリマーのシェルとを含むことを特徴とする、方法。 | ||||||
43 | Cellulose ether compound in order to improve the high temperature performance of exterior insulation finishing system (eifs) mortar | JP2014514627 | 2012-06-07 | JP2014522372A | 2014-09-04 | ヴィルフリート・アドルフ・ホーン; ブリギッテ・レンナート; マルティン・ヴンダーリヒ; ミヒャエル・ディッテル; テン−シャウ・ヨン |
本発明は、セルロースエーテル化合物のブレンドを含み、改善された可使時間、保水力、及び開放時間、並びに高い引張強度値を示す、モルタルに関する。 これらのモルタルは、特に高温環境において、外断熱仕上げシステム(EIFS)の製造に使用することができる。 セルロースエーテルのブレンドは、ヒドロキシエチルセルロースエーテルとメチルヒドロキシエチルセルロースエーテルとを含む。 水溶性のアニオン性ポリアクリルアミドとヒドロキシプロピルデンプンも、モルタルに加えることができる。 | ||||||
44 | The use of comb polymer of the hydraulic binders as handling improving agent of aqueous formulations based | JP2011539113 | 2009-11-06 | JP2012510425A | 2012-05-10 | ゲレ,オリヴィエ; プラテル,ダヴッド; モロ,ジャン |
【課題】分離現象を起こさず、水溶性配合物のハンドリング性を改善する、水硬性結合剤をベースにした水溶性配合物で使用する添加剤。
【解決手段】少なくとも一つの親水性アルコキシ基またはヒドロキシ-ポリアルキレン・グリコール基を有する少なくとも一つの側鎖を有する少なくとも一種の櫛形(メタ)アクリルコポリマーと、少なくとも一つの疎水基を有する少なくとも一つの側鎖を有する少なくとも一種の櫛形(メタ)アクリルコポリマーとを組み合わせる。 |
||||||
45 | Mortar for fiber reinforcement and mortar molded product using the same | JP2007254336 | 2007-09-28 | JP4918446B2 | 2012-04-18 | 淳 ▲高▼比良; 雅貴 出口; 晴一 高畑 |
46 | Re-dispersible powder and its aqueous dispersion, production method and how to use | JP2000561230 | 1999-07-21 | JP4233219B2 | 2009-03-04 | ヴィリマン・ホングリ; ケリカー・ロベルト |
47 | A new water-dispersible in water repellent, used in the manufacturing method and the binder composition of the construction sector in particular mineral | JP2007514009 | 2005-05-24 | JP2008500420A | 2008-01-10 | ジユベール,ダニエル; タケ,パスカル; ドウリユエル,マルシヤル; メルシエ,ジヤン−ミシエル |
本発明は水に可溶な両親媒性の共重合体組成物中に予め乳化されている水に不溶で水と混ざらない防水剤の少なくとも一つに基づく新規水分散性の防水剤に関する。 本発明はまた乾燥することにより得られる該組成物の固形物、およびその建設現場での用途のための水に不溶なフィルム形成性重合体組成物または鉱物結合剤組成物中での使用に関する。 | ||||||
48 | Polymer composition | JP2000060721 | 2000-03-06 | JP2000290460A | 2000-10-17 | OSCAR SHAN-SHAANGU SHU |
PROBLEM TO BE SOLVED: To obtain a composition capable of giving a gypsum wall board imparted with waterproof without loosing strength by including a specific polymer and calcium sulfate at a specific ratio. SOLUTION: This composition is obtained by including (A) 0.5-20 pts.wt., preferably 1-15 pts.wt. of a polymer obtained by the polymerization of (i) 1-100 pts.wt., preferably 20-95 pts.wt. of a (meth)acrylic acid 12-40C alkyl ester [e.g. stearyl (meth)acrylate], (ii) 0-99 pts.wt., preferably 4-79 pts.wt. of an ethylenic unsaturated monomer (e.g. methyl methacrylate) and (iii) 0-15 pts.wt., preferably 1-10 pts.wt. of a monomer (salt) containing an ethylenic unsaturated acid (e.g. methacrylic acid) and (B) 80-99.5 pts.wt. of calcium sulfate. A gypsum wall board obtained by molding the mixture of 0.5-20 pts.wt. of the component A, 80-99.5 pts.wt. of the component B and (C) water is protected by drying. | ||||||
49 | EMULSION OF AQUEOUS-BASED SLURRY IN RESIN AS A WELL SEALANT | US15987443 | 2018-05-23 | US20190185735A1 | 2019-06-20 | Larry T. WATTERS; Paul L. SONNIER; David J. ARCHACKI; Thomas D. WELTON; Fred L. SABINS |
A sealant is provided which is a curable resin external emulsion having a fluid internal phase comprising a curable material which expands during, after or before it cures. The resin external phase is, for example, an epoxy resin which may shrink as it cures. The internal phase is captured within micelles to provide discrete internal phase portions supported in an out resin matrix. | ||||||
50 | COMPOSITIONS AND METHODS FOR WELL COMPLETIONS | US15750286 | 2015-08-05 | US20180215989A1 | 2018-08-02 | Bipin Jain |
Expansive cements for use in cementing subterranean wells comprise water, an inorganic cement and one or more particulate materials that swell upon contact with a water-immiscible fluid. The cements may further comprise a water-immiscible fluid. Such cements are designed to seal microannuli arising from the presence of water-immiscible fluids on casing surfaces, borehole wall surfaces or both. | ||||||
51 | Refractory Castables with Hydrophobic Aggregates | US14710809 | 2015-05-13 | US20150259255A1 | 2015-09-17 | Kenneth J. Moody; Bryan K. Doerr |
Hydrophobic aggregates for use in refractory castables and gunning mixtures and methods of their preparation. The aggregates here are formed by crushing insulating fire brick and coating the resulting particles with a hydrophobic component. The hydrophobic component may be a polydimethylsiloxane having a terminal silanol group. As a result of the coating process, the coated aggregate has very low levels of alkalis. The aggregates may be used to form refractory castables that do not undergo substantial alkaline hydrolysis due to the reduced levels of alkalis. The castables made from these aggregates display superior physical properties, including lower water content, lower permanent linear change, high strength, and superior thermal conductivity/insulation properties, while at the same time possessing lower density and requiring less water to be used during castable formation. These improved properties also are observed in gunning mixtures formed from these aggregates. | ||||||
52 | Water Repellent Organopolysiloxane Materials | US14396229 | 2013-05-02 | US20150087747A1 | 2015-03-26 | Frederick Campeol; Tatiana Dimitrova; Fabrizio S. Galeone; Jean-Paul H. Lecomte; Leon Andre Marteaux; Sabrina Salvati |
A process for increasing the hydrophobicity of a porous product by treating the product or a composition providing the product, with a water repellent material, characterised in that the porous product or a composition providing the product is treated with an aqueous suspension of microcapsules, where the microcapsules comprise a water repellent organopolysiloxane core material and a shell of a silicon-based network polymer comprising silica units. | ||||||
53 | Acid-resistant, hydraulically setting masses | US13141289 | 2009-12-15 | US08957137B2 | 2015-02-17 | Harald Zeh; Jörgen Bezler; Stefan Bonimeier; Armin Hoffman; Hermann Lutz |
The invention relates to acid-resistant, hydraulically setting masses based on a) slag sand, b) one or more pozzolanas, c) one or more fillers, d) one or more polymers based on ethylenically unsaturated monomers, and water. | ||||||
54 | Refractory Castables with Hydrophobic Aggregates | US14279536 | 2014-05-16 | US20140339456A1 | 2014-11-20 | Kenneth J. Moody; Bryan K. Doerr |
Hydrophobic aggregates for use in refractory castables and gunning mixtures and methods of their preparation. The aggregates here are formed by crushing insulating fire brick and coating the resulting particles with a hydrophobic component. The hydrophobic component may be a polydimethylsiloxane having a terminal silanol group. As a result of the coating process, the coated aggregate has very low levels of alkalis. The aggregates may be used to form refractory castables that do not undergo substantial alkaline hydrolysis due to the reduced levels of alkalis. The castables made from these aggregates display superior physical properties, including lower water content, lower permanent linear change, high strength, and superior thermal conductivity/insulation properties, while at the same time possessing lower density and requiring less water to be used during castable formation. These improved properties also are observed in gunning mixtures formed from these aggregates. | ||||||
55 | Workability of an aqueous formulation with a hydraulic binder base using a combination of comb-branched polymers | US12630089 | 2009-12-03 | US08703846B2 | 2014-04-22 | David Platel; Jean Moro; Olivier Guerret |
The invention pertains to improving the workability of an aqueous formulation with a hydraulic binder base using a combination between at least one comb-branched copolymer having a (meth)acrylic skeleton, onto which are grafted side-chains terminated by a hydrophilic group, and at least one comb-branched copolymer having a (meth)acrylic skeleton, onto which are grafted side-chains terminated by a hydrophobic group. | ||||||
56 | Hydrophobically associating copolymers | US12783877 | 2010-05-20 | US08362180B2 | 2013-01-29 | Roland Reichenbach-Klinke; Thomas Pfeuffer; Kati Schmidt; Thomas Ostrowski; Reinhold J Leyrer; Yulia Fogel; Stefan Friedrich; Peter Gaeberlein; Andrea Orleans; Manfred Schuhbeck; Marcus Guzmann; Markus Rösch; Björn Langlotz |
Water-soluble, hydrophobically associating copolymers which comprise new types of hydrophobically associating monomers. The monomers comprise an ethylenically unsaturated group and a polyether group with block structure comprising a hydrophilic polyalkylene oxide block which consists essentially of ethylene oxide groups, and a terminal, hydrophobic polyalkylene oxide block which consists of alkylene oxides with at least 4, preferably at least 5 carbon atoms. | ||||||
57 | CELLULOSE ETHER COMPOUNDS FOR IMPROVED HOT TEMPERATURE PERFORMANCE IN EXTERNAL INSULATION FINISHING SYSTEMS (EIFS) MORTARS | US13485069 | 2012-05-31 | US20120315489A1 | 2012-12-13 | Wilfried Adolf Hohn; Brigitte Rennert; Martin Wunderlich; Michael Dittel; Teng-Shau Young |
The present invention relates to mortars which include a blend of cellulose ether compounds and exhibit improved pot life, water retention capability, and open time, as well as high tensile strength values. These mortars can be used in the fabrication of external insulation finishing systems (EIFS), particularly in hot environments. The cellulose ether blend includes hydroxyethylcellulose ether and methylhydroxyethylcellulose ether. Water soluble anionic polyacrylamide and hydroxypropyl starch can also be added to the mortar. | ||||||
58 | Methods to control fluid loss in a well bore | US12550999 | 2009-08-31 | US07956016B2 | 2011-06-07 | Mohan K. R. Panga; Isabelle Couillet; Carlos Abad |
The invention discloses a method of controlling fluid loss from a subterranean formation of a well bore. In a first aspect, the method is done by providing a treatment fluid made of an aqueous fluid and a hydrophobic polymer; and introducing the treatment fluid into the wellbore. In a second aspect, the method is done by providing a treatment fluid made of water and a water soluble polymer; providing in the treatment fluid a fluid loss additive having a hydrophobic polymer; using the treatment fluid in a well bore of a subterranean formation; allowing the treatment fluid to establish a permeable filter cake with the water soluble polymer in at least a portion of the well bore; and allowing hydrophobic polymer to enter into the filter cake to reduce permeability of the filter cake. | ||||||
59 | HYDROPHOBICALLY ASSOCIATING COPOLYMERS | US12783877 | 2010-05-20 | US20100331510A1 | 2010-12-30 | Roland Reichenbach-Klinke; Thomas Pfeuffer; Kati Schmidt; Thomas Ostrowski; Reinhold J. Leyrer; Yulia Fogel; Stefan Friedrich; Peter Gaeberlein; Andrea Orleans; Manfred Schuhbeck; Marcus Guzmann; Markus Rösch; Björn Langlotz |
Water-soluble, hydrophobically associating copolymers which comprise new types of hydrophobically associating monomers. The monomers comprise an ethylenically unsaturated group and a polyether group with block structure comprising a hydrophilic polyalkylene oxide block which consists essentially of ethylene oxide groups, and a terminal, hydrophobic polyalkylene oxide block which consists of alkylene oxides with at least 4, preferably at least 5 carbon atoms. | ||||||
60 | Redispersible powder and its aqueous dispersion, preparation process and use | US11435044 | 2006-05-16 | US20060211805A1 | 2006-09-21 | Hongli Willimann; Robert Koelliker |
The invention relates to a redispersible powder obtainable by (co)polymerization, using a polymer with cationic functionality in an aqueous medium, optionally accompanied by the use of conventional additives, the polymer with cationic functionality being obtained by (co)polymerization in an aqueous medium of olefinically unsaturated (co)monomers, wherein at least one (co)monomer has a cationic functionality, further (co)monomers are added and polymerization takes place in the presence of suitable initiators, and by drying the aqueous dispersion obtained, the (co)polymerizate having one or more reactive groups. According to another embodiment, the polymer with cationic functionality is formed in situ in the presence of a seed. According to another embodiment, the process is controlled in such a way that a (co)polymerizate particle with heterogeneous morphology is formed. The invention also relates to the aqueous dispersions, a process for the preparation of the redispersible powder and the use thereof. |