1 |
一种热力管道用涂刷料及其制备方法 |
CN201610110615.9 |
2016-02-29 |
CN105731902A |
2016-07-06 |
吴利刚 |
一种热力管道用涂刷料及其制备方法,由粉料和拌合液组成,其中,粉料由铝灰、赤泥、碎玻璃、高岭土、氧化硅、铁粉、蓝晶石粉、氧化钛、氧化铝粉、单质硅和碳化硅微粉制成,拌合液由氢氧化钠、水泥和碳酸钠加入到水中形成的悬浮液。本发明通过合适的工艺最终将粉料制成耐热性、强度、抗冲刷性能、抗热震性能和隔热性良好的整体型粉末,然后通过拌合液制成浆料涂刷于管道内壁上,从而提升管道的耐热性、隔热性、抗冲刷性能,进而大幅度延长管道的使用寿命。 |
2 |
一种植被型多孔混凝土的制备方法 |
CN200810029354.3 |
2008-07-10 |
CN101318795B |
2011-09-14 |
余其俊; 李荣炜; 韦江雄 |
一种植被型多孔混凝土的制备方法,采用“预包裹”技术,将具有特定组成的浆体包裹粗骨料,形成粒径较均匀的球体,以这些球体的物理堆聚及其表层浆体的胶结作用,形成固相间胶结良好且气相连通的多孔、大孔结构。具体制备步骤是:(1)确定包裹骨料的浆体流动度和粘度范围,通过绝对体积法算出配合比;(2)采用四步搅拌工序和振捣与加压相结合的成型方式;(3)对孔隙进行封碱处理。本发明克服传统方法中浆体向下流动所导致的孔隙分布不均匀和不连续孔隙增多以及混凝土孔隙中碱度偏高不利于植物生长的难题。本发明制备的植被型多孔混凝土可应用于高速公路的路肩隔板、建筑屋顶、防岸护坡、停车场等部位,具有良好的景观效应和生态环保意义。 |
3 |
防水保温隔热建筑材料及制备方法 |
CN200910087464.X |
2009-06-25 |
CN101575193A |
2009-11-11 |
王峰华 |
一种防水保温隔热建筑材料及制备方法,用于建筑领域。由下列成分组成:水泥:1、砂子:2.5、膨胀玻化微珠:0.1、防水剂:0.9、聚苯颗粒:0.1、胶粉:0.02;制备方法:把上述材料掺合在一起,干搅拌均匀;加入防水剂,搅拌均匀得到的混合浆料;将得到的混合浆料涂复在建筑物顶层面上形成第一涂层;第一涂层干燥后,将上述的混合浆料涂复在第一涂层上形成第二涂层;第二涂层干燥后,将上述的混合浆料涂复在第三涂层。本发明的防水保温隔热建筑材料取代了现有技术的多层结构,简化为三层,并满足了对建筑物顶层的技术要求,达到了多层结构的防水保温隔热效果。而且制备方法简单,优于多层结构的制备施工方法,简化工艺提高效率。 |
4 |
防水保温隔热建筑材料及制备方法 |
CN200910087464.X |
2009-06-25 |
CN101575193B |
2012-07-18 |
王峰华 |
一种防水保温隔热建筑材料及制备方法,用于建筑领域。由下列成分组成:水泥:1、砂子:2.5、膨胀玻化微珠:0.1、防水剂:0.9、聚苯颗粒:0.1、胶粉:0.02;制备方法:把上述材料掺合在一起,干搅拌均匀;加入防水剂,搅拌均匀得到的混合浆料;将得到的混合浆料涂复在建筑物顶层面上形成第一涂层;第一涂层干燥后,将上述的混合浆料涂复在第一涂层上形成第二涂层;第二涂层干燥后,将上述的混合浆料涂复在第三涂层。本发明的防水保温隔热建筑材料取代了现有技术的多层结构,简化为三层,并满足了对建筑物顶层的技术要求,达到了多层结构的防水保温隔热效果。而且制备方法简单,优于多层结构的制备施工方法,简化工艺提高效率。 |
5 |
一种植被型多孔混凝土的制备方法 |
CN200810029354.3 |
2008-07-10 |
CN101318795A |
2008-12-10 |
余其俊; 李荣炜; 韦江雄 |
一种植被型多孔混凝土的制备方法,采用“预包裹”技术,将具有特定组成的浆体包裹粗骨料,形成粒径较均匀的球体,以这些球体的物理堆聚及其表层浆体的胶结作用,形成固相间胶结良好且气相连通的多孔、大孔结构。具体制备步骤是:(1)确定包裹骨料的浆体流动度和粘度范围,通过绝对体积法算出配合比;(2)采用四步搅拌工序和振捣与加压相结合的成型方式;(3)对孔隙进行封碱处理。本发明克服传统方法中浆体向下流动所导致的孔隙分布不均匀和不连续孔隙增多以及混凝土孔隙中碱度偏高不利于植物生长的难题。本发明制备的植被型多孔混凝土可应用于高速公路的路肩隔板、建筑屋顶、防岸护坡、停车场等部位,具有良好的景观效应和生态环保意义。 |
6 |
Coating systems for cement composite articles |
US14572384 |
2014-12-16 |
US09593051B2 |
2017-03-14 |
Archie W. Garner; T. Howard Killilea; Carl Lewis Cavallin; Todd A. Peterson; Kevin W. Evanson; Danny G. Hartinger; Larry B. Brandenburger |
A method for making a coating composition by mixing one or more latex polymers and an aliphatic epoxy resin system having an epoxy equivalent weight less than 1000 and being distinct from the one or more latex polymers to provide an aqueous first component, and providing a second component having reactive groups that can react with the one or more epoxy resins. A mixture of the first and second components provides a film-forming curable coating composition that may be used on substrates including cement, cement fiberboard, wood, metal, plastic, ceramic, glass and composites. |
7 |
Multi-layer acoustical plaster system |
US12275755 |
2008-11-21 |
US09266778B2 |
2016-02-23 |
Lee K. Yeung |
An acoustical plaster system features a base layer mixture and a finish layer mixture. The base layer mixture includes a first binder, a first thickener and a plurality of first particles, with the first particles being porous, lightweight, non-close packing particles having a first mean diameter. The finish layer mixture includes a powder latex binder, a second thickener and a plurality of second particles, with the second particles being porous, lightweight particles having a second diameter. The first mean diameter is larger than said second mean diameter. |
8 |
Coating systems for cement composite articles |
US11775080 |
2007-07-09 |
US08932718B2 |
2015-01-13 |
Archie W. Garner; T. Howard Killilea; Carl Lewis Cavallin; Todd A. Peterson; Kevin W. Evanson; Dan Hartinger; Larry B. Brandenburger |
A coating system, a method of coating a substrate, and a coated substrate (e.g., a coated cement fiberboard article) include one or more latex polymers, an aliphatic epoxy resin system, optionally a silicate additive, and optionally one or more olefinic compounds and an initiator. The coating system may be applied in one or more layers and may be applied to all the surfaces of the substrate (e.g., the front side, back side and edges of a board). The coated substrate may then be coated with other optional coatings, e.g., decorative or protective topcoats. |
9 |
Fast setting stucco and method of use |
US13071584 |
2011-03-25 |
US08349073B2 |
2013-01-08 |
Stephen James Arment; Donald Nelson Gilbart |
A cementitious composition the properties of which are useful for: a) reducing shrinkage cracking in stucco systems due to excess water present in initial mixing required to achieve adequate slump necessary for application, but not necessary for material hydration b) reducing full thickness cracking as a result of minor structural movement by increasing the flexural strength, c) reducing the time required to place the layers of a three-coat exterior stucco system. The composition of this material is a blend of ASTM C 150 Portland cement, an ASTM C 1328 Plastic (Stucco) cement and a minor amount of a sulfonated naphthalene formaldehyde condensate (SNF), also described as Polynaphthalene sulfonates (PNS) cement superplasticizer, also known as a HRWR (High Range Water Reducer). |
10 |
Production of in-kiln modified glazed tile |
JP13521394 |
1994-05-24 |
JPH07315963A |
1995-12-05 |
TOYODA HIDEYUKI; FUKUSHIMA TOMOKO |
PURPOSE: To obtain an in-kiln modified tile by firing with a roller hearth kiln without using PbO.
CONSTITUTION: Mat glaze contg. TiO
2 and BaO, bright glaze contg. TiO
2 and BaO and semibright glaze having a compsn. between the compsns. of the mat and bright glazes are prepd. and put on the surface of a substrate so that all the glazes are exposed at the time of firing and then the substrate is fired with a roller hearth kiln.
COPYRIGHT: (C)1995,JPO |
11 |
Sound absorption system and a method of manufacturing the same |
JP2011537615 |
2009-11-19 |
JP5557145B2 |
2014-07-23 |
リー・ケイ・ヤン |
|
12 |
MULTI-LAYER ACOUSTICAL PLASTER SYSTEM |
EP09828218.9 |
2009-11-19 |
EP2358527A2 |
2011-08-24 |
YEUNG, Lee, K. |
An acoustical plaster system features a base layer mixture and a finish layer mixture. The base layer mixture includes a first binder, a first thickener and a plurality of first particles, with the first particles being porous, lightweight, non-close packing particles having a first mean diameter. The finish layer mixture includes a powder latex binder, a second thickener and a plurality of second particles, with the second particles being porous, lightweight particles having a second diameter. The first mean diameter is larger than said second mean diameter. |
13 |
COATING SYSTEMS FOR CEMENT COMPOSITE ARTICLES |
US14572384 |
2014-12-16 |
US20150104583A1 |
2015-04-16 |
Archie W. Garner; T. Howard Killilea; Carl Lewis Cavallin; Todd A. Peterson; Kevin W. Evanson; Dan Hartinger; Larry B. Brandenburger |
A method for making a coating composition by mixing one or more latex polymers and an aliphatic epoxy resin system having an epoxy equivalent weight less than 1000 and being distinct from the one or more latex polymers to provide an aqueous first component, and providing a second component having reactive groups that can react with the one or more epoxy resins. A mixture of the first and second components provides a film-forming curable coating composition that may be used on substrates including cement, cement fiberboard, wood, metal, plastic, ceramic, glass and composites. |
14 |
NANO-BASED SELF-HEALING ANTI-CORROSION COATING |
US14128606 |
2012-06-25 |
US20140134426A1 |
2014-05-15 |
James Jackson Milham Henry |
The present invention is directed to a synergistic multilayer anti-corrosion resistant coating for a metal surface, the coating having three subcoatings, a) a self assembled monolayer nanoprimer; b) a polymeric primer; c) a polymeric top coat containing microcapsules for self-healing. The present invention is further direction to systems and methods for producing the coating in situ on the metal surface. The present invention provides an economical, non-epoxy-based, corrosion coating having favorable resistance to acid and to salt water, and having favorable adhesion properties. |
15 |
Perlited portland cement plaster joint compound additive with lime |
US10394381 |
2003-03-21 |
US20040185173A1 |
2004-09-23 |
Slawomir
Ratomski; Valerie
Rodriguez; Vezen
Wu |
A composition and method for treating a surface is described. In one embodiment, the composition comprises about 10% to 90% by weight of cement, about 10% to 90% by weight of plaster, about 0.01% to about 20% by weight of lime, and about 0% to about 30% by weight of perlite. In another embodiment, the composition comprises plaster, cement, perlite, lime, joint compound and water, wherein the plaster, cement, perlite, and lime are in a ratio of about 10-90: 10-90: 0-30: 0.01-20 by weight. In another embodiment, the composition is prepared by a method comprising: (a) providing a first mixture comprising plaster, cement, perlite, and lime; (b) converting the first mixture to a second mixture by a method selected from the group consisting of stirring the first mixture, passing the first mixture through a strainer, and milling the first mixture; and (c) mixing the second mixture with joint compound and water to obtain the composition. |
16 |
Time delayed thickening slump-resistant polymer concrete composition,
methods of repairing concrete surfaces, concrete structures repaired
therewith and articles of construction comprising a formed mass of said
compositions in cured condition |
US882769 |
1992-05-11 |
US5242708A |
1993-09-07 |
Frank Fekete; David T. Thrash |
Resurfacing surfaces of highways, roads, etc. to provide skid-resistant surface by preparing polymer concrete composition containing a curable polymer composition containing ethylenically unsaturated polymer having carbon-bonded carboxyl groups and/or hydroxyl groups and at least one reactive thickener comprising Group IIA metal oxide or hydroxide or a polyisocyanate; mixing the resulting mixture with aggregate; coating said surface with the resulting composition; compacting and shaping the resulting composition and curing the compacted, shaped composition on said surface. |
17 |
Multilayer sound absorbing plaster system |
JP2011537615 |
2009-11-19 |
JP2012509787A |
2012-04-26 |
リー・ケイ・ヤン |
吸音プラスターシステムは、基層混合物および仕上層混合物を特徴とする。 基層混合物は、第1のバインダー、第1の増粘剤、および複数の第1の粒子を含み、第1の粒子は、第1の平均粒径を有する多孔質で軽量な非最密充填粒子である。 仕上層混合物は、粉末状ラテックスバインダー、第2の増粘剤、および複数の第2の粒子を含み、第2の粒子は、第2の粒径を有する多孔質で軽量な粒子である。 第1の平均粒径は前記第2の平均粒径より大きい。 |
18 |
Multi-layer fire barrier system |
JP2006515067 |
2004-06-03 |
JP2006527152A |
2006-11-30 |
アンソニー・エム・マザニィ; クレイグ・エル・カートライト; ジョン・ダブリュ・ロビンソン |
少なくとも1層のアルカリケイ酸塩樹脂組成物層ならびに断熱層、膨張層、フォーム層、波形層、反射表面層および補強材料層のうちの少なくとも1つの層を含んでなる、防火障壁システムに関する。 上記防火障壁システムは、木材、ポリマーのごとき材料とともに使用することにより、向上した防火性能、熱障壁、酸素障壁を与える。 |
19 |
Method of manufacturing a kiln modulation glazed tile |
JP13521394 |
1994-05-24 |
JP2859133B2 |
1999-02-17 |
TOYODA HIDEYUKI; FUKUSHIMA TOMOKO |
|
20 |
COATING SYSTEMS FOR CEMENT COMPOSITE ARTICLES |
US15429396 |
2017-02-10 |
US20170226022A1 |
2017-08-10 |
Archie W. Garner; T. Howard Killilea; Carl L. Cavallin; Todd A. Peterson; Kevin W. Evanson; Dan Hartinger; Larry B. Brandenburger |
A method for making a coating composition by mixing one or more latex polymers and an aliphatic epoxy resin system having an epoxy equivalent weight less than 1000 and being distinct from the one or more latex polymers to provide an aqueous first component, and providing a second component having reactive groups that can react with the one or more epoxy resins. A mixture of the first and second components provides a film-forming curable coating composition that may be used on substrates including cement, cement fiberboard, wood, metal, plastic, ceramic, glass and composites. |