| 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 | 改进的发泡镁氧水泥,其制备方法和用途 | CN95193375.2 | 1995-05-25 | CN1049201C | 2000-02-09 | I·亚尼夫 |
| 发泡镁氧水泥,包括选自于氯氧镁和含氧硫酸镁水泥的一种水泥,以及一种或多种发泡系数低于1.80的有机羧酸,和/或它们酸酐,和/或它们的盐。 | ||||||
| 22 | 多功能镁质复合材料 | CN96105808.0 | 1996-04-26 | CN1163869A | 1997-11-05 | 余伯林; 梁锦云 |
| 多功能镁质复合材料属于人造板材技术领域。曹氏复合材料专利在阴雨天多的南方当湿度达到80%以上时无法正常生产。本发明重大改进的特征:运用计算方法根据空气湿度变化调节氯化镁溶液的波美度,用此方法控制好MaO和MaO12的摩尔比值;加入适量的防水剂及硫酸亚铁等,使其增强、早强、生成性能稳定的胶体和晶体物质,填充于其硬化过程形成的毛细管道,增强了制品构体的密实性、抗水性,在空气湿度达到90%以上的大雨天也能照常生产。 | ||||||
| 23 | 改进的发泡镁氧水泥及由其形成的制品 | CN95193375.2 | 1995-05-25 | CN1149864A | 1997-05-14 | I·亚尼夫 |
| 发泡镁氧水泥,包括选自于氯氧镁和含氧硫酸镁水泥的一种水泥,以及一种或多种发泡系数低于1.80的有机羧酸,和/或它们酸酐,和/或它们的盐。 | ||||||
| 24 | 人造无机大理石的制造方法及产品 | CN92109964.9 | 1992-09-29 | CN1075114A | 1993-08-11 | 郭恒 |
| 一种人造无机大理石的制造方法及产品,由氧化镁、氯化镁、石英砂、石英粉、石子、盐酸、尿醛树脂、磷酸三钠、消泡剂、六偏磷酸钠、硅酸钠防水剂等组成。制作过程主要分为两步,一是制作面料,其次是在面料上面投入配制好的基料,然后经振动等过程,最后形成人造大理石成品。本发明具有强度高、不潮解、不变形、耐酸碱、耐磨、抗老化和表面光泽好等优点,可广泛用于各种建筑物的表面装饰。 | ||||||
| 25 | 非变形性菱镁水泥 | CN91106377.3 | 1991-04-11 | CN1054237A | 1991-09-04 | 朱玉杰; 黄俊惠; 张春山; 李庆娟; 黄际莉 |
| 本发明涉及一种菱镁水泥。本菱镁水泥包括菱苦土和氯化镁溶液,其技术要点是:在上述成分中加入起防止菱镁水泥制品变形作用的碳酸盐粉,其碳酸盐粉的加入量为菱苦土重量的33~67%。所说的碳酸盐粉为石灰石粉、白云石粉或菱镁石粉。其碳酸盐粉的细度为16~170目。 | ||||||
| 26 | Method of manufacturing a synthetic additives for the coating layer of the road surface transportation | JP52151994 | 1994-03-08 | JPH08508232A | 1996-09-03 | ケメライト,ヴィルヘルム; フュリンク,ライナー |
| (57)【要約】 本発明は、硬化可能な無機質混合物が製造され、硬化の後に得られるコンクリートブロックが所望の粒度に破砕され、必要に応じて分類される、交通路面の被覆層の形成及び表面処理のための氷結を阻止する作用物質を含有する合成添加物の製造方法に関する。 大幅に改善された安定性特性を有し、交通路面被覆を製造するのにも適し、表面処理を行うのにも適する粒状材料を形成するために、前記混合物が、細かくされたアルカリ土類酸化物及び/又はアルカリ土類水酸化物を含有する第1の成分と、アルカリ土類塩化物を水溶液として含有する第2の成分とから成り、第1の成分のアルカリ土類酸化物及びアルカリ土類水酸化物の割合と、第2の成分のアルカリ土類塩化物との重量比が、5:1〜1:1であることが提案される。 | ||||||
| 27 | Improved foaming magnesite cement and products according to it | JP50104595 | 1995-05-25 | JPH10504512A | 1998-05-06 | イツァーク ヤニフ |
| (57)【要約】 マグネシウムオキシクロライドセメント、マグネシウムオキシサルフェイトセメント、及びその混合体から選択したセメントと、1.80以下の発泡係数をもつ1つまたはそれ以上の種類の有機カルボン酸及び/またはその無水物及び/またはその塩類とからなる発泡マグネサイトセメント。 | ||||||
| 28 | Composition for the making of decorative elements | EP09162872.7 | 2009-06-16 | EP2161246A3 | 2012-08-29 | FRANCO, Leonardo |
A composition for the making of decorative elements by mould casting, comprises: a powdered part comprising magnesium oxide in an amount equal to about 50%, said magnesium oxide having an International Activity, measured according to the acid citric method, higher than about 30 seconds and lower than about 60 seconds; a liquid part comprising a magnesium chloride solution in an amount higher than about 39.2% and lower than about 50%. |
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| 29 | IMPROVED FOAMED MAGNESITE CEMENT AND ARTICLES MADE THEREWITH | EP95920661.0 | 1995-05-25 | EP0765296A1 | 1997-04-02 | YANIV, Itzhak |
| Foamable magnesite cement, comprising a cement selected from magnesium oxychloride and magnesium oxysulphate cement, or a mixture thereof, together with one or more organic carboxylic acid(s) having a foaming coefficient lower than 1.80, and/or their anhydride(s) and/or their salt(s). | ||||||
| 30 | VERFAHREN ZUR HERSTELLUNG EINES SYNTHETISCHEN ZUSCHLAGSTOFFS FÜR DECKSCHICHTEN VON VERKEHRSFLÄCHEN | EP94910330.0 | 1994-03-08 | EP0692045A1 | 1996-01-17 | FÜLLING, Rainer, Dr. rer. nat.; KÄMEREIT, Wilhelm, Dipl.-Ing. |
| The invention concerns a method of producing a synthetic aggregate containing a substance which inhibits the formation of ice, the aggregate being intended for use in the construction and surface treatment of the top layers of traffic surfaces, the method calling for a hardening mineral mixture to be prepared and the synthetic stone obtained after hardening to be broken down to the required particle size and, if necessary, graded. In order to obtain a granular material with significantly improved stability and which is just as suitable for use in the construction of traffic surfaces as it is for surface treatment, the invention proposes that the mixture is made up of a first component containing finely particulate alkaline-earth oxides and/or hydroxides and a second component containing alkaline-earth chlorides in aqueous solution, the ratio by weight of the alkaline-earth oxides and hydroxides in the first component to the alkaline-earth chlorides in the second component being in the range 5:1 to 1:1. | ||||||
| 31 | MAGNESIUM-BASED CEMENTS AND SLURRY PRECURSORS FOR THE SAME | EP16780992.0 | 2016-04-18 | EP3283447A1 | 2018-02-21 | SHAND, Mark Alexander; HAYNES, C. Matt; JONES, Paul Douglas; WARREN, William David |
| Magnesium based cements are provided using one or more slurry precursors. In an embodiment, a method of forming a magnesium-based cement includes providing an aqueous slurry of a magnesium compound. A magnesium cement co-reactant is also provided. The aqueous slurry of the magnesium compound is mixed with the magnesium cement co-reactant to provide the magnesium-based cement. | ||||||
| 32 | LAMINATED STRUCTURE WITH IMPROVED FIRE RESISTANCE AND PROCEDURE FOR THE MANUFACTURE OF THE STRUCTURE | EP95922551.7 | 1995-06-19 | EP0822896B1 | 2001-10-24 | ATEVIC, Tomislav |
| A laminated structure with improved fire resistance and a procedure for the manufacture of the structure. The structure comprises a layer (1) of inorganic silicate-oxychloridic cement and/or inorganic silicate-oxysulphatic cement. | ||||||
| 33 | IMPROVED FOAMED MAGNESITE CEMENT AND ARTICLES MADE THEREWITH | EP95920661.6 | 1995-05-25 | EP0765296B1 | 1999-03-31 | YANIV, Itzhak |
| 34 | Settable, form-filling loss circulation control compositions comprising in situ foamed non-hydraulic sorel cement systems and method of use | US15879169 | 2018-01-24 | US10150905B1 | 2018-12-11 | B. Raghava Reddy |
| This document relates to settable, non-hydraulic foamed cement compositions comprising nitrogen gas-generating compositions used for loss circulation control. | ||||||
| 35 | Light-weight, fire-resistant composition and assembly | US15932638 | 2018-03-28 | US20180282218A1 | 2018-10-04 | Michael John Mabey |
| Light-weight, fire-resistant “mineral foam” includes an inorganic cementitious matrix and at least one metal hydrate that is a “super hydrate” substance, in which water is present with the substance in an amount of at least about ten moieties of water of hydration per formula unit of the substance. As a cured solid, that “mineral foam,” or another mineral foam composition including an inorganic cementitious matrix, can be provided as a structural member in part of an assembly that has at least one open web, thermally insulating support member at least partially embedded in the cured solid. Also, the cured “mineral foam” may be a solid foam in a form of a panel, panel block or tile, which may have a tongue provision and/or a groove provision. | ||||||
| 36 | MAGNESIUM-BASED CEMENTS AND SLURRY PRECURSORS FOR THE SAME | US15131331 | 2016-04-18 | US20160304396A1 | 2016-10-20 | Mark Alexander Shand; C. Matt Haynes; Paul Douglas Jones; William David Warren |
| Magnesium based cements are provided using one or more slurry precursors. In an embodiment, a method of forming a magnesium-based cement includes providing an aqueous slurry of a magnesium compound. A magnesium cement co-reactant is also provided. The aqueous slurry of the magnesium compound is mixed with the magnesium cement co-reactant to provide the magnesium-based cement. | ||||||
| 37 | Extruded Cross-Banded Magnesium Oxide Construction Board | US12486045 | 2009-06-17 | US20100081008A1 | 2010-04-01 | Kathy Trout Trout |
| Embodiments of the invention comprise a method of making a construction board (also known as wallboard) and a device for making same. The resulting construction board is formed by mixing of at least magnesium oxide, magnesium chloride, and a binding agent into a slurry, adding particulized solid material while funneling the slurry, and extruding the slurry comprising the particulized solid material. | ||||||
| 38 | Magnesium oxychloride cement compositions and methods for manufacture and use | US678602 | 1991-04-01 | US5110361A | 1992-05-05 | Russell I. Alley; George E. Caine |
| Magnesium oxychloride cement compositions, products, and uses thereof, are provided by mixing magnesium oxide, a magnesium chloride solution, and aggregate particles. The cement compositions are adapted for use in repairing damaged concrete surfaces, casting both functional and decorative forms, and coating surfaces with stucco. The addition of a small amount of acid to the cement composition promotes a more complete cementing reaction. The resulting cement product exhibits substantially increased strength and water resistance. Brine from the Great Salt Lake is a preferable source of the magnesium chloride solution. Brine from the Great Salt Lake results in a cement composition substantially stronger than cement produced from a pure magnesium chloride solution. Use of the Great Salt Lake brine as the gauging solution in lieu of a gauging solution made from magnesium chloride flakes (hexahydrate) reduces manufacturing costs of magnesium oxychloride cement products. | ||||||
| 39 | Magnesium oxychloride cement compositions and methods for manufacture and use | US267443 | 1988-11-04 | US5004505A | 1991-04-02 | Russell I. Alley; George E. Caine |
| Magnesium oxychloride cement compositions, products, and uses thereof, are provided by mixing magnesium oxide, a magnesium chloride solution, and aggregate particles. The cement compositions are adapted for use in repairing damaged concrete surfaces, casting both functional and decorative forms, and coating surfaces with stucco. The addition of a small amount of acid to the cement composition promotes a more complete cementing reaction. The resulting cement product exhibits substantially increased strength and water resistance. Brine from the Great Salt Lake is a preferable source of the magnesium chloride solution. Brine from the Great Salt Lake results in a cement composition substantially stronger than cement produced from a pure magnesium chloride solution. Use of the Great Salt Lake brine as the gauging solution in lieu of a gauging solution made from magnesium chloride flakes (hexahydrate) reduces manufacturing costs of magnesium oxychloride cement products. | ||||||
| 40 | Magnesium oxychloride mixture and method of making the same | US40656029 | 1929-11-12 | US1811799A | 1931-06-23 | LUKENS HIRAM S |
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