| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | RESIN COMPOSITION COMPRISING STYRENE-METHYMETHACRYLATE COPOLYMER, ARTIFICIAL MARBLE PRODUCED USING THE SAME, AND THE PROCESS FOR PRODUCING THE ARTIFICIAL MARBLE USING THE SAME | EP05789358 | 2005-03-10 | EP1778599A4 | 2010-01-13 | KIM HANG-YOUNG; SUNG MIN-CHUL |
| Provided are a resin composition, comprising 100 parts by weight of a styrene-methylmethacrylate resin solution containing a styrene-methylmethacrylate copolymer and at least one of styrene and methylmethacrylate; 100 to 200 parts by weight of an inorganic filler; and 0.5 to 10 parts by weight of a cross-linkable monomer; and an artificial marble prepared using the same and a process for preparing the same. The resin composition can provide an artificial marble having improved transparency due to reduction of refractive index difference between aluminum hydroxide and methylmethacrylate while maintaining excellent weatherability and thermal characteristics possessed by a conventional acrylic polymer. | ||||||
| 182 | CEMENT COMPOSITIONS COMPRISING HUMIC ACID GRAFTED FLUID LOSS CONTROL ADDITIVES AND METHODS OF USING THEM | EP08701764.6 | 2008-01-10 | EP2102304A2 | 2009-09-23 | LEWIS, Samuel, J.; CHATTERJI, Jiten; KING, Bobby, J.; BRENNEIS, Darrell, Chad |
| A cement composition comprising water, a cement, and a fluid loss control additive, the fluid loss control additive comprising a graft copolymer. The graft copolymer comprises a backbone and at least four grafted monomers selected from the group consisting of 2-acrylamido-2-methylpropanesulfonic acid, acrylamide, acrylic acid, vinylphosphonic acid, diallyldimethylammonium chloride, and salts thereof. The backbone of the graft copolymer comprises a humic acid salt. The cement compositions may be used in cementing operations. | ||||||
| 183 | ADDITIV FÜR BAUCHEMISCHE ANWENDUNGEN | EP06791572.8 | 2006-08-10 | EP1912919A1 | 2008-04-23 | GÄBERLEIN, Peter; SCHINABECK, Michael; FRIEDRICH, Stefan; HOLLAND, Uwe; EBERWEIN, Michael; WEISS, Patrick; SCHUBECK, Manfred |
| Additives with applications in construction chemistry comprise an organic and/or an inorganic core component (A) with rheology-enhancing properties and a shell component (B) applied to the same by virtue of physical and/or chemical interactions, which acts as a coating. Component (A) should consist of water-soluble and/or swellable and/or adsorbing compounds of a non-cellulosic type which, in the end application, develop viscosity-enhancing properties. The shell component (B) should preferably be a film-forming polymer which can release component (A) in a retarded manner during its application in construction chemistry, for example polyvinyl alcohol, polyvinyl acetate and polyethyleneglycol. Component (B) can comprise multiple layers and include at least one reactive layer. The new additive can be used as an auxiliary agent with a retarded effect in paints, but also for timing the increase in viscosity or the development of rheological properties of construction material systems based on inorganic binders. | ||||||
| 184 | RESIN COMPOSITION COMPRISING STYRENE-METHYMETHACRYLATE COPOLYMER, ARTIFICIAL MARBLE PRODUCED USING THE SAME, AND THE PROCESS FOR PRODUCING THE ARTIFICIAL MARBLE USING THE SAME | EP05789358.8 | 2005-03-10 | EP1778599A1 | 2007-05-02 | KIM, Hang-Young; 402-906, Yeolmaemaeul, 858,; SUNG, Min-Chul 202, Wuseongyeonrib, 112-11, |
| Provided are a resin composition, comprising 100 parts by weight of a styrene- methylmethacrylate resin solution containing a styrene-methylmethacrylate copolymer and at least one of styrene and methylmethacrylate; 100 to 200 parts by weight of an inorganic filler; and 0.5 to 10 parts by weight of a cross-linkable monomer; and an artificial marble prepared using the same and a process for preparing the same. The resin composition can provide an artificial marble having improved transparency due to reduction of refractive index difference between aluminum hydroxide and methylmethacrylate while maintaining excellent weatherability and thermal characteristics possessed by a conventional acrylic polymer. | ||||||
| 185 | UTILISATION DE POLYM RES DE STRUCTURE "PEIGNE" EN BILLES E T COMPOSITIONS AINSI OBTENUES | EP04791710.9 | 2004-10-18 | EP1678224A2 | 2006-07-12 | VILLARD, Emmanuel; NARANJO, Horacio; LYOT, Pierre |
| The present invention relates to compositions including organic and/or inorganic fillers and at least one comb-structured bead-form polymer. The bead-form polymer has an apparent specific gravity higher than 0.5 and preferably higher than 0.7; a spherical shape and physical properties such as greater flowability, a better particle size distribution whereby a high fine particle content is averted, and a lower specific surface area whereby the moisture regain rate is lowered and caking is reduced; as a result of which an overall improvement in the use conditions is achieved when the polymer is used as a plasticizer, a superplasticizer or a dispersing agent, in comparison with the conditions observed during the use of the same materials marketed in solid form (e.g. as a fine powder prepared by spray drying), particularly by virtue of the very fast availability of the polymer in the medium. The invention further relates to the use of comb-structured bead-form polymers as plasticizers, superplasticizers, water reducers and high-reduction water reducers in compositions that include a hydraulic binder, e.g. concrete, mortar, slag, slurry and gypsum, as well as the use of said polymers as dispersing agents for organic and/or inorganic fillers, for example, but not exclusively, in compositions such as paints, coatings and detergent, softening or cosmetic compositions. | ||||||
| 186 | RAPID SETTING CEMENTITIOUS COMPOSITION | EP03763010.0 | 2003-06-20 | EP1517871A2 | 2005-03-30 | DUBEY, Ashish |
| A rapid setting cementitious composition useful for making cement boards employs an insoluble form of anhydrous calcium sulfate (anhydrite) to accelerate setting and to permit reducing the amount of high alumina cement usage. The rapid setting cementitious composition comprises as a reactive powder blend: (a) 35 to 90 wt% potland cement; (b) 0 to 55 wt% pozzolan; (c) 5 to 15 wt% high alumina cement and (d) 1 to 8 wt% insoluble calcium sulfate anhydrite. | ||||||
| 187 | FIBER CEMENT BUILDING MATERIALS WITH LOW DENSITY ADDITIVES | EP01924151.2 | 2001-03-09 | EP1265822A1 | 2002-12-18 | GLEESON, James, A.; PARADIS, Kalynne, H.; SLOANE, Brian, P.; MELMETH, David, L.; SELIGMAN, Dean, M. |
| This invention relates to a formulation with the addition of low density additives of volcanic ash, hollow ceramic microspheres or a combination of microspheres and volcanic ash or other low density additives into cementitious cellulose fiber reinforced building materials. This formulation is advantageously lightweight or low density compared as compared to current fiber cement products without the increased moisture expansion and freeze-thaw degradation usually associated with the addition of lightweight inorganic materials to fiber cement mixes. The low density additives also give the material improved thermal dimensional stability. | ||||||
| 188 | VERFAHREN ZUR HERSTELLUNG EINES KIESELSTOFF ENTHALTENDEN MATERIALS SOWIE DARAUS HERGESTELLTE MATERIALIEN | EP94900034.3 | 1993-11-26 | EP0625129B1 | 1998-04-29 | MILLES, Victor Alexander |
| The basic idea of the invention is not only to dispense with the cross-linking of the solid dispersed phase in the dispersing agent, but to use the solid dispersed phase as matrix of matrices into which macro-particles are incorporated. The dispersing agent is then chemically set, but an excess of setting agent is added, so that the preproduct may be transformed into the desired material by adding dispersing agent at a later date. For that purpose, a body capable of forming a matrix is prepared and formed with filler-like macro-particles, soloxide (cross-linking agent) and a buffer for promoting the formation of the matrix of matrices. This body is then processed. It may be pigmented, so that a great variety of different compositions may be obtained by adding a variant mixture to the body. Two successive steps allow the appropriately prepared body to be transformed into the desired material: a hydrating and balancing step and a subsequent setting and stabilising step. | ||||||
| 189 | Hollow microspheres with wall through-openings | EP84113631.0 | 1984-11-12 | EP0150288A2 | 1985-08-07 | Anderson, Paul Richard; Wuttke, Gilbert Henry |
Hollow microspheres or shells having wall through-openings, and methods for manufacture thereof, which find application as microcarriers for anchorage-dependent cell cultivation and as fillers for thermal insulation purposes. Hollow glass or polymeric shells having removal-susceptible wall zones carried by a wall matrix are chemically treated to remove the susceptible zones and thereby leave the matrix wall with through-openings. The shells may be vacuum coated to obtain a discrete reflective surface layer which seals an evacuated interior, or, in the case of glass, the shells may be vacuum sintered to close the through-openings, and then coated to obtain the reflective surface layer. |
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| 190 | USE OF COMB-STRUCTURED BEAD-FORM POLYMERS, AND RESULTING COMPOSITIONS | PCT/IB2004003392 | 2004-10-18 | WO2005040240A8 | 2005-07-28 | VILLARD EMMANUEL; NARANJO HORACIO; LYOT PIERRE |
| The present invention relates to compositions including organic and/or inorganic fillers and at least one comb-structured bead-form polymer. The bead-form polymer has an apparent specific gravity higher than 0.5 and preferably higher than 0.7; a spherical shape and physical properties such as greater flowability, a better particle size distribution whereby a high fine particle content is averted, and a lower specific surface area whereby the moisture regain rate is lowered and caking is reduced; as a result of which an overall improvement in the use conditions is achieved when the polymer is used as a plasticizer, a superplasticizer or a dispersing agent, in comparison with the conditions observed during the use of the same materials marketed in solid form (e.g. as a fine powder prepared by spray drying), particularly by virtue of the very fast availability of the polymer in the medium. The invention further relates to the use of comb-structured bead-form polymers as plasticizers, superplasticizers, water reducers and high-reduction water reducers in compositions that include a hydraulic binder, e.g. concrete, mortar, slag, slurry and gypsum, as well as the use of said polymers as dispersing agents for organic and/or inorganic fillers, for example, but not exclusively, in compositions such as paints, coatings and detergent, softening or cosmetic compositions. | ||||||
| 191 | RAPID SETTING CEMENTITIOUS COMPOSITION | PCT/US0319649 | 2003-06-20 | WO2004005212A3 | 2004-03-25 | DUBEY ASHISH |
| A rapid setting cementitious composition useful for making cement boards employs an insoluble form of anhydrous calcium sulfate (anhydrite) to accelerate setting and to permit reducing the amount of high alumina cement usage. The rapid setting cementitious composition comprises as a reactive powder blend: (a) 35 to 90 wt% potland cement; (b) 0 to 55 wt% pozzolan; (c) 5 to 15 wt% high alumina cement and (d) 1 to 8 wt% insoluble calcium sulfate anhydrite. | ||||||
| 192 | DURABLE CERAMIC NANOCOMPOSITE THERMAL BARRIER COATINGS FOR METALS AND REFRACTORIES | PCT/US2011048106 | 2011-08-17 | WO2012024415A2 | 2012-02-23 | MASSINGILL JOHN L JR; POWELL CLOIS E; HABINGREITHER ROBERT B; COOK RAY G |
| A coating composition for metal or refractories includes a polysilazane resin; and one or more additives that alter the thermal conductivity and/or the abrasion resistance of the cured polysilazane resin. The coating composition may be applied to a metal or refractory material substrate and heated to form a ceramic layer on the substrate. The ceramic layer exhibits lower thermal conductivity and increased abrasion resistance. | ||||||
| 193 | CEMENT COMPOSITIONS COMPRISING HUMIC ACID GRAFTED FLUID LOSS CONTROL ADDITIVES AND METHODS OF USING THEM | PCT/GB2008000067 | 2008-01-10 | WO2008084226A3 | 2008-09-04 | LEWIS SAMUEL J; CHATTERJI JITEN; KING BOBBY J; BRENNEIS DARRELL CHAD |
| A cement composition comprising water, a cement, and a fluid loss control additive, the fluid loss control additive comprising a graft copolymer. The graft copolymer comprises a backbone and at least four grafted monomers selected from the group consisting of 2-acrylamido-2-methylpropanesulfonic acid, acrylamide, acrylic acid, vinylphosphonic acid, diallyldimethylammonium chloride, and salts thereof. The backbone of the graft copolymer comprises a humic acid salt. The cement compositions may be used in cementing operations. | ||||||
| 194 | USE OF COMB-STRUCTURED BEAD-FORM POLYMERS, AND RESULTING COMPOSITIONS | PCT/IB2004003392 | 2004-10-18 | WO2005040240A2 | 2005-05-06 | VILLARD EMMANUEL; NARANJO HORACIO; LYOT PIERRE |
| The present invention relates to compositions including organic and/or inorganic fillers and at least one comb-structured bead-form polymer. The bead-form polymer has an apparent specific gravity higher than 0.5 and preferably higher than 0.7; a spherical shape and physical properties such as greater flowability, a better particle size distribution whereby a high fine particle content is averted, and a lower specific surface area whereby the moisture regain rate is lowered and caking is reduced; as a result of which an overall improvement in the use conditions is achieved when the polymer is used as a plasticizer, a superplasticizer or a dispersing agent, in comparison with the conditions observed during the use of the same materials marketed in solid form (e.g. as a fine powder prepared by spray drying), particularly by virtue of the very fast availability of the polymer in the medium. The invention further relates to the use of comb-structured bead-form polymers as plasticizers, superplasticizers, water reducers and high-reduction water reducers in compositions that include a hydraulic binder, e.g. concrete, mortar, slag, slurry and gypsum, as well as the use of said polymers as dispersing agents for organic and/or inorganic fillers, for example, but not exclusively, in compositions such as paints, coatings and detergent, softening or cosmetic compositions. | ||||||
| 195 | 利用城市生活垃圾焚烧灰渣制造的复合轻质砖 | CN200920062070.4 | 2009-08-10 | CN201546360U | 2010-08-11 | 程峰 |
| 本实用新型涉及利用城市生活垃圾焚烧灰渣制造的复合轻质砖,该砖按重量比例的组成成分是:城市生活垃圾焚烧灰渣60%-80%、水泥小于等于10%、膨胀珍珠岩小于等于10%、添加剂小于等于5%、填料2%-20%。复合轻质砖设为长方体结构,其中至少有一个面设有复合表面层、涂料层或着色层;或设为长方体形状的框体结构,由前侧壁、后侧壁、左侧壁、右侧壁构成,其中心为上、下贯通的空腔,前侧壁和后侧壁的中部设有支撑筋。本实用新型将城市生活垃圾焚烧灰渣经预处理后进行资源化利用,所得的复合轻质砖具有强度高,砖体不容易开裂,节能,隔音和隔热的特点;其结构简单、加工方便、相互之间接合牢固,适用于各种非承重性质的建筑。 | ||||||
| 196 | 시멘트 복합재료에 혼합이 가능한 자기치유 고상캡슐 제조방법 및 이에 의해 제조되는 고상캡슐 | KR1020160178856 | 2016-12-26 | KR101761608B1 | 2017-07-26 | 최연왕; 오성록; 최병걸; 이광명 |
| 본발명은균열보강을위한코어재를분체화하는단계; 분체화된코어재를코팅하여캡슐화하는단계;를포함하는것을특징으로하는자기치유고상캡슐제조방법에관한것이다. | ||||||
| 197 | 콘크리트 조성물 및 그 제조방법 | KR1020160157584 | 2016-11-24 | KR101758818B1 | 2017-07-18 | 김원희; 김진용; 이규완 |
| 본발명의콘크리트조성물은 PS볼 54~74 중량%; 플라이애쉬 19~30 중량%; 수산화나트륨용액과규산소다(Sodium Silicate)가혼합된활성제 6~16 중량%; 고유동화제 0.1~0.3 중량%; 속경제 0.3~1.0 중량%;를포함한다. 기존의일반적인콘크리트조성물은자갈과모래를골재로사용하고, 시멘트를바인더로사용하는것이일반적이다. 그러나이 경우, PS볼이골재로혼합되고, 블라이애쉬, 활성제, 고유동화제, 속경제가바인더로혼합되기때문에시멘트사용에대한이산화탄소를배출하지않는다. 또한, 자갈과모래대신 PS볼을골재로사용하기때문에골재가물을흡수하는수분손실을방지하고, 콘크리트의강도가증가된다. | ||||||
| 198 | 인조대리석용 광경화형 투명칩의 제조 방법 | KR1020140065684 | 2014-05-30 | KR101475788B1 | 2014-12-30 | 백종구 |
| Disclosed is a method for manufacturing a photo-curable and transparent chip for artificial marble. More specifically, the method includes the steps of: (a) producing a resin composition for manufacturing the photo-curable and transparent chip including a base resin selected from an unsaturated polyester oligomer and an acrylate oligomer, a monomer as a reactivity diluent, and a photo-initiator; (b) obtaining a cured resin by irradiating the resin composition with light to photo-cure the resin composition; and (c) crushing the cured resin. | ||||||
| 199 | 인조대리석 칩 및 이를 포함하는 인조대리석 | KR1020130052311 | 2013-05-09 | KR1020140107072A | 2014-09-04 | 천성호; 정두교; 배기붕 |
| An artificial marble chip according to the present invention includes a seed chip (a), a first resin layer (b), and a second resin layer (c), wherein colors of the first resin layer (b) and the second resin layer (c) are different from each other. The artificial marble chip preferably has a section, in which a ratio of a minor axis to a major axis is in a range of 1:1 to 1:1.5, and a specific gravity of 1.60 to 1.80. The artificial marble chip according to the present invention is manufactured by the following steps: (A) preparing a seed chip, (B) mixing the seed chip into a first resin layer syrup and then vibration coating the first resin layer on at least a part of the upper part of the seed chip, (C) mixing the seed chip, which is coated with the first resin layer, into a second resin layer syrup and then vibration coating the second resin layer on at least a part of the upper part of the seed chip, which is coated with the first resin layer, and (D) hardening the seed chip, which is coated with the second resin layer. In addition, an artificial marble according to the present invention includes a curable resin matrix (a′), the artificial marble chip (b′) of the present invention manufactured using a curable resin, an inorganic filler and a pigment, and an inorganic filler (c′). The artificial marble according to the present invention is manufactured by the following steps: (A′) manufacturing an artificial marble composite by mixing the artificial marble chip of the present invention, the inorganic filler, and an additive in a curable resin matrix, and (B′) curing the composite at a temperature of 25 to 180°C. | ||||||
| 200 | 철강 슬래그를 이용한 콘크리트 조성물 | KR1020120112618 | 2012-10-10 | KR101372676B1 | 2014-03-12 | 이훈하; 조봉석 |
| The present invention relates to a concrete composition, which is a binder using a large quantity of granulated blast furnace slag powder. The concrete composition comprises a reaction accelerator as a hydration stimulating material for the granulated blast furnace slag powder, wherein the reaction accelerator is one or more stimulants selected from the group consisting of normal Portland cement, desulfurization slag powder, and Ca(OH)<sub>2</sub>; Na<sub>2</sub>SO<sub>4</sub>; desulfurization dust obtained by desulfurizing exhaust gas generated from sintering in a steel mill; or a mixture thereof. The concrete composition comprises slowly cooled steel slag, wet rapidly cooled steel slag, and one or more selected from the group consisting of granulated blast furnace slag, granulated FINEX slag, granulated FeNi slag, and electric arc furnace oxidizing slag, as an aggregate for concrete, wherein the slowly cooled steel slag is a coarse aggregate, the wet rapidly cooled steel slag is a heavy aggregate, and the one or more selected from the group is a fine aggregate. According to the present invention, mixed cement containing a large quantity of granulated blast furnace slag powder promotes initial hydration of the granulated blast furnace slag powder and controls the generation of bleed water during concrete pouring by generating acicular ettringite and plate monosulfate which are initial hydrates of the mixed cement. Moreover, the amount of natural aggregate used can be reduced by using slowly cooled steel slag as coarse aggregate for concrete, wet rapidly cooled steel slag having a low content of glass-CaO as heavy aggregate, and granulated blast furnace slag, granulated FINEX slag, granulated FeNi slag, and electric arc furnace oxidizing slag as fine aggregate. | ||||||
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