| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 201 | Rapid degradation of the pigment concentrate | JP2006505326 | 2004-04-29 | JP2006524726A | 2006-11-02 | フォーグラー ステファン; ヴォルフガング ヌンゲス ニコラウス |
| 【課題】公知の濃縮物の利点を保持しつつ、これら濃縮物よりも迅速に分散できる顔料濃縮物を提供すること。
【解決手段】特に、コンクリートのようなセメントベースの建材の着色、及び、塗料、ペンキ等の着色のための顔料濃縮物は、少なくとも1つの顔料と、場合によっては、結合剤、分散剤、及び湿潤剤を有し、少なくとも1つの分解剤を含む。 この分解剤は、充分量の水に濃縮物を接触させると、機械的操作なしでも、1分間以内で、顔料粒子を放出しつつ、濃縮物の主構造を略完全に分解する。 |
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| 202 | Powder-like building material composition | JP2006504971 | 2004-04-02 | JP2006521992A | 2006-09-28 | ホラント ウーヴェ; シュトーア ヴェルナー; フーバー クリスティアン; プフォイファー トーマス; ゲーバーライン ペーター; デーゲンコルプ マティアス; リートミラー ヨアヒム |
| 遅延作用を有する、粉体状建材組成物が請求され、前記組成物は反応性キャリアー材料並びに前記キャリアー材料に塗布された液状ポリマー化合物を含有する。 前記組成物でもって、これは有利には(潜在)水硬性結合剤、無機添加物、及び/又は有機化合物をキャリアー材料として、並びに、例えばポリビニルアルコール、ポリ酢酸ビニル、及びAMPSをベースとするポリマーをポリマー化合物として含有してよく、キャリアー材料からのポリマー成分の時間依存的な剥離により、その時間的に遅れた遊離が、水で混合した建築用化学的混合物中において成し遂げられる。 従って、前記粉体状建材組成物により、水和可能な建材混合物の時間的に調節された硬化が行われ、及び水性分散液をベースとする建材の、時間的に制御された「内部の乾燥」も可能にする。 | ||||||
| 203 | Partially hydrated molded body of the hydraulic composition, production method and its use that | JP2003320208 | 2003-09-11 | JP3678732B2 | 2005-08-03 | 孝征 兼吉; 規行 小堺; 義位 小山; 晃弘 草津; 哲也 酒木 |
| 204 | Method for manufacturing hydraulic solidifying material utilizing sulfur oxide-containing volcanic ash | JP2001339994 | 2001-10-02 | JP2003112953A | 2003-04-18 | TANABE TOMOHISA; TANAKA MINORU; OKUBO KAZUHIRO; KOSAKA YUKIO; ICHIGE SHOZO; NAITOU NANAE; NAITO HIROYUKI |
| PROBLEM TO BE SOLVED: To provide a method for manufacturing an inexpensive hydraulic solidifying material which makes hydraulic solidification possible at ordinary temperature by using a pollution-free material. SOLUTION: The method for manufacturing the hydraulic solidifying material of a pollution-free type composed of a powder one-pack composite composition by homogeneously and intimately mixing a calcia composition and further an auxiliary composition at need with an activated silicate formed by previously subjecting sulfur oxide-containing volcanic ash to an activation treatment of two steps, a heat treatment with the calcia composition and a reaction treatment with an alkali hydroxide and recovering the activated silicate is provided. COPYRIGHT: (C)2003,JPO | ||||||
| 205 | Hardenable mortar mass by frontal polymerization and method for fixing anchor rod | JP2000392754 | 2000-12-25 | JP2001234084A | 2001-08-28 | PFEIL ARMIN; BUERGEL THOMAS; MORBIDELLI MASSIMO; ROSELL ANNY |
| PROBLEM TO BE SOLVED: To obtain a mortar mass having a long pot life and hardenable in several s to several min by heating and to provide a method for fixing a fixing element in a hard base using the mortar mass. SOLUTION: This mortar mass is characterized in that the mortar mass comprises (a) at least one polymerizable monomer and/or at least one hardenable resin and (b) a polymerization initiator for the polymerizable monomer which can be activated and/or thermally liberated at >30 deg.C temperature and/or a hardening accelerator for the hardenable resin and (c) the kind and amount of the polymerizable monomer or hardenable resin and polymerization initiator or hardening accelerator are selected so that at least 10 cm polymerization front velocity (forward velocity) per min after inducing the polymerization can be achieved and at least one filler, as necessary, is used as a component. The method for fixing an anchor rod, a reinforcing bar or materials similar thereto in the hard base is obtained. | ||||||
| 206 | Cement admixture, and slump loss reduction method using the same | JP7602597 | 1997-03-27 | JP3200833B2 | 2001-08-20 | 芳樹 因幡; 俊文 西久保; 郁 金子; 良弘 黒山 |
| 207 | Premixed concrete material and concrete using the same | JP33138499 | 1999-11-22 | JP2001151552A | 2001-06-05 | HASHIDA HIROSHI; KURODA YASUHIRO |
| PROBLEM TO BE SOLVED: To provide a premixed concrete material the performance of which can be established by surely preventing hydration reaction from being caused during storage of the material and concurrently which enables effective utilization of recycled concrete aggregate, and also to provide concrete using the premixed concrete material. SOLUTION: This premixed concrete material is obtained by mixing prescribed amounts of concrete components other than water, namely, at least coarse aggregate, fine aggregate and cement, wherein the water content of the aggregate including recycled aggregate is adjusted to <=0.7%, i.e., a value at or lower than that in air-dry condition, or set to a value at or lower than the value being in equilibrium with 80% environmental humidity [RH(relative humidity)], to establish performance of the premixed concrete material. | ||||||
| 208 | Tape for retarding hardening of surface of concrete | JP22598098 | 1998-08-10 | JP2000063185A | 2000-02-29 | FUKUYAMA KAZUYUKI |
| PROBLEM TO BE SOLVED: To obtain a concrete surface hardening-retarding tape capable of easily removing a non-hardened concrete stain leaked on the surface of a tile by laminating an adhesive layer comprising a suspension polymerization type acrylic adhesive, a water-soluble polymer and a concrete hardening retarder to one surface of a synthetic resin substrate. SOLUTION: This concrete surface hardening-retarding tape is obtained by laminating an adhesive layer comprising 100 pts.wt. of a suspension polymerization type acrylic adhesive having a weight-average mol.wt. of 500,000-5,000,000, 0.5-20 pts.wt. of a water-soluble polymer and 0.05-50 pts.wt. of a concrete hardening retarder to one surface of a synthetic resin substrate. The suspension type acrylic adhesive is preferably obtained by the suspension polymerization of a vinylic monomer composition comprising 100 pts.wt. of an alkyl (meth)acrylate wherein the alkyl group has 1 to 12 carbon atoms, 1-50 pts.wt. of a vinylic monomer containing a polar group, and 0.1-20 pts.wt. of a polyfunctional vinylic monomer. Even when absorbing water and moisture, the adhesive layer is hardly swollen and scarcely causes the deterioration in the cohesive force of the adhesive. COPYRIGHT: (C)2000,JPO | ||||||
| 209 | Organic-inorganic mortar mass | JP20638899 | 1999-07-21 | JP2000044324A | 2000-02-15 | GIENAU ROLAND; PFEIL ARMIN |
| PROBLEM TO BE SOLVED: To obtain an organic-inorganic mortar mass and to provide a method for using the mass. SOLUTION: This hardenable two-component mortar mass comprises a curable organic component, a hardenable inorganic component and a curing/ hardening agent. Especially the curing/hardening agent is isolated so as not to be reacted with the curable and the hardenable components, can be activated for application or use every time it is required, contains an epoxide as the curable component and fine cement as the hardenable component. An amine and an alkali water glass are contained as the curing/hardening agent. | ||||||
| 210 | Production method of the fibril article | JP18049898 | 1998-06-26 | JP2978152B2 | 1999-11-15 | KENESU BII GUROSU; BURATSUDORII UENTO KIBERU; RICHAADO MAIKERU SHURETSUKU; JUUNNSAN SHIAKU |
| 211 | Cement hardening retardant two-pack composition and surface treatment of concrete using same | JP9886598 | 1998-04-10 | JPH11292594A | 1999-10-26 | FUJIWARA KEISUKE; IKUTA TATSU |
| PROBLEM TO BE SOLVED: To easily carry out surface treatment of concrete using a cement hardening retardant two-pack compsn. which is stable over a long period of time. SOLUTION: Liquid (A) comprising an unsatd. polyester resin having a structure represented by the formula [where R is alkylene, X 1 is O or S, X 1 may be different depending on (n), X 2 is O or S and (n) is an integer of 1-20] as principal repeating units and a polymn. initiator and liquid (B) comprising a polymerizable diluent and an accelerator are prepd. When the liquids A and B are mixed and applied to the surface of concrete, the mixture solidifies rapidly and forms a cement hardening retardant coating layer. After hardening the concrete, the coating layer contact surface of the concrete is washed, so that the objective surface treatment is easily carried out. COPYRIGHT: (C)1999,JPO | ||||||
| 212 | Adhesive composition | JP17598891 | 1991-06-20 | JP2910333B2 | 1999-06-23 | TAKEUCHI JUKO; TAKEMOTO TAKAO; TANIGAWA SHIN |
| 213 | Irritant for retarding soil stabilizer and retarding stabilizer containing the same | JP33312597 | 1997-12-03 | JPH11157895A | 1999-06-15 | SUZUKI YASUNORI; YOSHIHARA MASAHIRO; TERANO YOSHINARI; OMODAKA YASUSHI; KOTABE YUICHI |
| PROBLEM TO BE SOLVED: To provide an irritant which is excellent to give retarding soil stabilizing property and long-term strength without decreasing separation resistance and flowing property under pressure by a pump of the emulsion of a retarding soil stabilizer used for soil improvement or the like, and to provide the retarding soil slow-hardening stabilizer containing that irritant. SOLUTION: Fine particles of a cement hydrate, for example, fine particles of a hydrate obtd. from concrete sludge, a hydrate obtd. from hardened concrete and/or a hydrate obtd. by adding water to a cement for hydration reaction are used as the irritant for a the retarding soil stabilizer. Then the irritant for the retarding soil stabilizer by 1.0 to 10.0 pts.wt. is mixed 70.0 to 99.0 pts.wt. of a blast furnace slug fine powder and 0 to 20.0 pts.wt. of gypsum to prepare the retarding soil stabilizer. | ||||||
| 214 | Production of inorganic panel | JP32122497 | 1997-11-21 | JPH11151713A | 1999-06-08 | KASHIDA MASAHIRO; YAMADA HIDEKI |
| PROBLEM TO BE SOLVED: To subject an aq. slurry to press molding perfectly in a pot-life period to prevent the generation of the aq. slurry wasted after the pot life is elapsed by mixing and kneading a curing accelerator with the aq. slurry corresponding to the one press amt. in a press mold immediately before press molding. SOLUTION: An aq. slurry 1 is housed in a main stock tank 7 and a curing accelerator 2 is housed in a sub-stock tank 8 in the same way and the aq. slurry 1 corresponding to the one press amt. in a press mold and the curing accelerator 2 are charged in a stirring tank 9 immediately before press molding as shown by arrows A to be mixed and kneaded. Then, the mixed material 11 of the aq. slurry 1 and the curing accelerator 2 after mixing and kneading is simply taken out by opening a slide type taking-out lid 10 to be transferred to a press machine 5. At this time, by using one component selected from a group consisting of calcium chloride, sodium nitrite and water glass as the curing accelerator 2, the hydraulic reaction of cement is effectively accelerated to certainly enhance productivity. | ||||||
| 215 | Manufacture of article of fibrillar properties | JP18049898 | 1998-06-26 | JPH1190911A | 1999-04-06 | KENESU BII GUROUSU; BURATSUDORII UENTO KIBERU; RICHIYAADO MAIKERU SHIYURETSUK; JIYUUNNSAN SHIAKU |
| PROBLEM TO BE SOLVED: To provide an injection molding method being suitable particularly for manufacture of a porous body of fibrillar properties in the whole of which fibrils are distributed uniformly substantially and so connected as to form a self-supported structure. SOLUTION: A mixture of fibrils of about 5-45 vol.% and a high-viscosity non-Newtonian aqueous vehicle of about 95-55 vol.% containing an organic hydrosolvent in a quantity sufficient for thickening the vehicle to the viscosity of about 20-1000 poise at a shear rate of 1 sec<-1> and for preparing the mixture which can endure a mixing shear energy of about 60 J/cm<3> at least without separation of water from the hydrosolvent, and the water, is injected into a mold under a pressure of about 2000 psi and frozen therein to be made a frozen precursor of an article. The precursor is ejected from the mold in a state of being still frozen and it is subjected to freeze drying and heated lastly so that the hydrosolvent be removed and that particles be connected mutually. | ||||||
| 216 | Adhesive for fixing element to be fixed | JP14988797 | 1997-05-26 | JPH10324848A | 1998-12-08 | KIMURA MICHIO |
| PROBLEM TO BE SOLVED: To provide an inexpensive adhesive for fixing an element to be fixed which can easily cope with the thickness of e.g. a bolt attached afterward or a profile steel rod and requires no special attention to be paid to the mixing ratio of the hydraulic component to the activating liquid. SOLUTION: This adhesive comprises an inorganic hydraulic component capsule A prepared by filling a bag made of a synthetic resin with an inorganic hydraulic component and sealing the open end and an activating liquid capsule B prepared by filling a bag made of a synthetic resin with an activating liquid 4 which reacts with the inorganic hydraulic component and cures it and sealing the open end. An aggregate component 5 is incorporated in capsules A and/or B. The desired number of capsules A and the desired number of capsules B are integrated by wrapping them with a synthetic resin film. COPYRIGHT: (C)1998,JPO | ||||||
| 217 | Semi-finished products for coating the surface - Building materials | JP52898697 | 1997-02-13 | JPH10509780A | 1998-09-22 | ベー・ハンス・ペーター |
| (57)【要約】 表面を被覆するために使用される半製品−建築材料であって、この半製品−建築材料はガラス板とこのガラス板の一方の側に設けられた結合モルタル層とから成り、この結合モルタル層が微粒子の中性骨材とセメントとから成り、ポリアクリル酸誘導体の水性分散液と混合されており、その際ポリアクリル酸誘導体がDIN 53445によって定められた対数減衰度を有しており、この対数減衰度が0°以下の摂氏温度において最高値を有しており、結合モルタル層がガラス板上に水和水の欠乏に伴って硬化する、半製品−建築材料において、被覆されるべき表面との結合が結合モルタル層が混合された硬化するコンクリートとの接触或いはいわゆるタイル接着剤或いは他のコンクリート接着剤との接触によって製造可能である。 | ||||||
| 218 | Solidification promoting packing material such as muddy water | JP14952795 | 1995-05-24 | JP2751025B2 | 1998-05-18 | ABE FUMIAKI |
| 219 | Additive for concrete | JP24250796 | 1996-08-27 | JPH1058430A | 1998-03-03 | MARUYAMA KYUICHI; SAKATA NOBORU; YOSHIZAKI MASATO |
| PROBLEM TO BE SOLVED: To facilitate to calculate the amt. of addition of a thickener and to uniformly disperse the thickener into concrete by using a mixture of powdery thickener and inorg. powder under a condition where they are wrapped with a water-soluble film as an additive for concrete. SOLUTION: Powdery thickener is premixed with inorg. powder and packs wherein the mixed powder is respectively wrapped with a water-soluble film e.g. by a unit of 100g-2kg are prepd. and these packs being enough to the amt. of aimed addition of the thickener are fed into a mixer during kneading concrete. Doing like this, the water-soluble film is gradually dissolved in the concrete during kneading and the mixed powder is made to flow out and the thickener is uniformly dispersed in the concrete to obtain highly fluid concrete with stabilized viscosity and good quality. In addition, it is possible to accurately grasp the amt. of addition of the thickener to the concrete wherein any type of dispersing agent is compounded. | ||||||
| 220 | Cement hardening retarder and its production | JP20722896 | 1996-08-06 | JPH1053444A | 1998-02-24 | IKUTA TATSU; ARITA HIROAKI |
| PROBLEM TO BE SOLVED: To effectively manifest a high ability of a cement hardening retarder to retard the hardening while suppressing elution with water. SOLUTION: This cement hardening retarder has a structure in which a cement hardening retarding component is sealed in an alkali-soluble or an alkali- hydrolyzable polymer. Furthermore, the cement hardening retarder is produced by sealing the cement hardening component (a hydroxycarboxylic acid, etc.) in the alkali-soluble or the alkali-hydrolyzable polymer and is thereby capable of effectively manifesting the ability of the hardening retarding component to retard the hardening. The alkali-soluble polymer includes a homopolymer or a copolymer of (meth)acrylic acid or its salt as a monomer and the alkali- hydrolyzable polymer includes a saturated or an unsaturated polyester or a cured product, etc., of the unsaturated polyester. The dispersion or coating is cited as a sealed form in the cement hardening retarder and the cement hardening retarder may be a powdery or a granular material or a sheet. | ||||||
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