序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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141 | Method for production of water-insoluble grain, molding or the like, and apparatus therefor | JP13660688 | 1988-06-02 | JPH0199678A | 1989-04-18 | PEETAA TOOMASU RUTSUGENTAARAA |
PURPOSE: To form final products entirely harmless to the environment by subjecting industrial waste, or the like to a high-temp. treatment and forming the sintered final products, such as grains and moldings, at the temp. corresponding to the m.p. of a eutectic glass mixture. CONSTITUTION: The regional or industrial waste is subjected to the high-temp. treatment of ≥500°C, more adequately incineration, pyrolysis or the like. Next, dross, ash, dust and sludge which are the intermediate products formed in this treatment are dried until a constant weight is attained as desired and, thereafter, the glassy or sintered final products in the form of the grains, moldings, or the like are formed at the temp. corresponding to the m. p. of the eutectic glass mixture by another high-temp. treatment. At this time, additives, such as salts, are added to the melt in order to improve the flow property of the melt or to lower the eutectic temp. thereof. The intermediate products in the first high-temp. treatment are adequately subjected to the next second high-temp. treatment in a stationary furnace of a crucible type, or the like by direct heating or indirect heating or the like. COPYRIGHT: (C)1989,JPO | ||||||
142 | Method of treating contaminated mineral substance | JP13825488 | 1988-06-04 | JPS63310691A | 1988-12-19 | HAARII ZERUBENTO |
143 | JPS5651144B1 - | JP4101272 | 1972-04-25 | JPS5651144B1 | 1981-12-03 | |
144 | JPS5144131B1 - | JP3288070 | 1970-04-17 | JPS5144131B1 | 1976-11-26 | |
145 | JPS4922408A - | JP4564673 | 1973-04-21 | JPS4922408A | 1974-02-27 | |
146 | An artificial marble and method for manufacturing the same | EP13176871.5 | 2013-07-17 | EP2792654A3 | 2016-01-27 | Binhussain, Mohammed; Hamzawy, Esmat; Alharbi, Omar |
The invention provides an artificial marble and a method for manufacturing the artificial marble. The artificial marble is manufactured using raw materials such as silicaand one or more natural resources materials. The one or more natural resources materials are selected from a group that includes limestone, clay, magnesite, phosphate, and fluorspar. |
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147 | INORGANIC FIBER AGGREGATE, METHOD FOR PRODUCING INORGANIC FIBER AGGREGATE, HONEYCOMB STRUCTURE AND METHOD FOR PRODUCING HONEYCOMB STRUCTURE | EP06714211.7 | 2006-02-21 | EP1726698B1 | 2013-07-10 | OHNO, Kazushige c/o IBIDEN CO., LTD.; SHIMIZU, Masao c/o IBIDEN CO., LTD.; MATSUO, Chiemi c/o IBIDEN CO., LTD. |
148 | REGENERATED CALCIUM ALUMINATE PRODUCT AND PROCESS OF MANUFACTURE | EP07758439 | 2007-03-13 | EP2018444A4 | 2010-01-06 | BARKER BRUCE JAMES; BREEDLOVE WILLIAM PARKER; IANNAZZO GENE ANTHONY |
149 | POROUS HIGH ALUMINA CAST REFRACTORY AND METHOD FOR ITS PRODUCTION | EP01934401.9 | 2001-05-30 | EP1288177B1 | 2007-12-12 | ISHINO, Toshihiro,c/o Asahi Glass Company Limited |
A high alumina cast refractory which comprises Al>2<O>3< in an amount of 94 to 98 mass % and Na>2<O and/or K>2<O in an amount of 1 to 6 mass % in total, has alpha -Al>2<O>3< crystal phase and beta -Al>2<O>3< crystal phase as main crystal phases, and has pores being dispersed in the interior thereof with a porosity of 5 to 30 %. The cast refractory has satisfactory corrosion resistance against alkali vapor and the like and excellent resistance to thermal impact and is lightweight, and thus is suitable for a glass melting kiln. | ||||||
150 | INORGANIC FIBER AGGREGATE, METHOD FOR PRODUCING INORGANIC FIBER AGGREGATE, HONEYCOMB STRUCTURE AND METHOD FOR PRODUCING HONEYCOMB STRUCTURE | EP06714211 | 2006-02-21 | EP1726698A4 | 2007-08-22 | OHNO KAZUSHIGE; SHIMIZU MASAO; MATSUO CHIEMI |
151 | INORGANIC FIBER AGGREGATE, METHOD FOR PRODUCING INORGANIC FIBER AGGREGATE, HONEYCOMB STRUCTURE AND METHOD FOR PRODUCING HONEYCOMB STRUCTURE | EP06714211.7 | 2006-02-21 | EP1726698A1 | 2006-11-29 | OHNO, Kazushige c/o IBIDEN CO., LTD.; SHIMIZU, Masao c/o IBIDEN CO., LTD.; MATSUO, Chiemi c/o IBIDEN CO., LTD. |
It is an object of the present invention to provide an inorganic fiber aggregated body that is high in strength, hardly loosened and hardly subjected to erosion, and in addition can be suitably used for a honeycomb structured body. The present invention provides an inorganic fiber aggregated body comprising inorganic fibers and an inorganic matter, wherein the inorganic matter sticks firmly to a portion at a surface of the inorganic fibers, and the inorganic fibers are firmly fixed to each other through the inorganic matter. |
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152 | BUILDING PRODUCT MATERIAL | EP03777012.0 | 2003-11-26 | EP1565412A2 | 2005-08-24 | READ, David Joseph,Staffordshire University; ANDERSON, Michael,Staffordshire University; DOWLER, David,Staffordshire University |
A method of making a building product material. The method comprising mixing particulate recycled glass with a sodium silicate binder, pressing the mixture to form a compact, introducing carbon dioxide gas to cure the binder immediately following pressing, and subsequently firing the compact. | ||||||
153 | METHOD FOR CONTINUOUS PRODUCTION OF DECORATIVE FACING SLABS DEVICE FOR CARRYING OUT SAID METHOD, DECORATIVE FACING MATERIAL | EP01920018 | 2001-03-19 | EP1298095A4 | 2004-12-22 | REZNIK VALENTIN JURIEVICH; AKHAPKIN KONSTANTIN VIKTOROVIC; GRISCHENKO SERGEI EVGENIEVICH; MELESHKO VIKTOR MIKHAILOVICH; SHITUEVA IRINA VLADIMIROVNA |
The invention relates to the production of decorative facing materials using a glass-pelletizer and refractory filler. The inventive method for a continuous production of decorative facing slabs consists in loading of basic materials into casting-moulds which are placed on an open heat-insulated palette, and in thermal treatment in a furnace at a temperature ranging from 900 DEG C to 950 DEG C. After the thermal treatment, the palette with the moulds is taken out and conditioned at an ambient temperature during 80-90 sec accompanied by cooling the surface of the slabs to a temperature ranging from 600 DEG C to 634 DEG C. Afterwards, the slabs are placed in a heat-insulated closed space having a thermal resistance of walls which makes it possible to cool the surface of the slab to a temperature ranging from 100 DEG C to 140 DEG C with an average cooling rate ranging from 0.016 to 0.020 degrees/sec. |
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154 | MATERIAU DE REVETEMENT A CHARGES DURES APPARENTES COLOREES, ET SON PROCEDE DE FABRICATION | EP02772504.3 | 2002-08-14 | EP1419122A2 | 2004-05-19 | Destenay, Claude |
The invention relates to a method of producing a material that is used to coat the pavement or other surfaces or areas of ground. The inventive method is characterised in that it comprises the following steps: a coloured mixture is prepared by the fusion of a basic component and colour pigments; and subsequently said coloured mixture is made to form a coloured aggregate in the mass having properties, particularly in terms of hardness, that are comparable to the properties of standard natural aggregates. The coloured, manufactured, hard fillers thus obtained in the mass are agglomerated with a hydrocarbon binder, a resin binder or a hydraulic binder, using a known method, in order to produce said coating. | ||||||
155 | VERFAHREN UND VORRICHTUNG ZUM SCHÄUMEN VON SCHMELZFLÜSSIGEN MATERIALIEN | EP01900033.0 | 2001-01-10 | EP1252116A1 | 2002-10-30 | OEI, Tjin, Swan |
The invention relates to a method and to a device for expanding fused materials (1). According to the inventive method, the fused material is processed to a fused film (6), an expansion agent (3) is admixed to the fused film, the fused film is atomized by means of an atomizer (13), the mixture (4) is applied to an expansion surface (15) where the mixture is expanded to the expanded material (5). | ||||||
156 | VERFAHREN ZUM HERSTELLEN VON SINTERGLAS- ODER SINTERGLASKERAMIK-FORMKÖRPERN ALS NATURSTEINÄHNLICHE BAU- UND DEKORATIONSMATERIALIEN | EP98950104.4 | 1998-10-02 | EP1027297B1 | 2002-08-07 | GREULICH, Norbert |
The invention relates to a method for producing very resistant, plate-shaped building and decorating materials similar to natural stone for trimming facades, walls and floors in interior and exterior areas. Said materials are produced from mixtures of broken glass, mineral components and fine-piece admixtures with a given composition. The mixture is thus mixed with a sintering auxiliary agent in the form of a solution of metal oxychlorides, metal alcoholates or tetrachlorides, preferably titanium tetrachlorides, and is placed inside a temperature resistant mold afterwards. The mixture is subjected to a common sintering process in said mold. Due to the added sintering auxiliary agents, the maximum sintering temperature is lowered and the quality of the surface is significantly improved. | ||||||
157 | HUMIDITY-CONTROLLING FUNCTIONAL MATERIAL AND PROCESS FOR THE PRODUCTION THEREOF | EP98943056.6 | 1998-09-18 | EP1075867A1 | 2001-02-14 | KAMESHIMA, Junji, Toto Ltd; KOBAYASHI, Hideki, Toto Ltd |
A humidity-controlling tile can be produced by mixing 70 wt% of porous alumina particles having specific pores (having pore diameters of about 3 to 8 nm and a pore volume of about 0.4 cc/g) as aggregate with 20 wt% of glass frit as binder and 10 wt% of clay a plastic material with the water content controlled suitably, press-molding the slurry thus obtained into a tile-shaped product, and firing the product at a temperature (about 850 °C) lower than the melting temperature of alumina but higher than that of the binder (glass frit) to bind the porous alumina particles with molten glass frit. The tile ahs a structure wherein porous alumina particles having the above specific pores and being adjacent to each other are bonded to each other with glass frit, thus being useful as a humidity-controlling functional material having a high humidity-controlling performance. |
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158 | VERFAHREN ZUM HERSTELLEN VON NATURSTEINÄHNLICHEN BAUMATERIALIEN AUS SINTERGLÄSERN ODER SINTERGLASKERAMIKEN | EP98950104.4 | 1998-10-02 | EP1027297A1 | 2000-08-16 | GREULICH, Norbert |
The invention relates to a method for producing very resistant, plate-shaped building and decorating materials similar to natural stone for trimming facades, walls and floors in interior and exterior areas. Said materials are produced from mixtures of broken glass, mineral components and fine-piece admixtures with a given composition. The mixture is thus mixed with a sintering auxiliary agent in the form of a solution of metal oxychlorides, metal alcoholates or tetrachlorides, preferably titanium tetrachlorides, and is placed inside a temperature resistant mold afterwards. The mixture is subjected to a common sintering process in said mold. Due to the added sintering auxiliary agents, the maximum sintering temperature is lowered and the quality of the surface is significantly improved. | ||||||
159 | VERFAHREN ZUR VERWERTUNG KONTAMINIERTER METALLTEILE | EP96945545.0 | 1996-11-12 | EP0862780B1 | 1999-10-13 | HAAS, Ernst; NEUDERT, Nikolaus; HOFMANN, Roland |
The invention concerns a method of utilizing radioactively contaminated metal parts, wherein the metal parts are melted and a slag-forming agent is then added such that a melt and a slag are formed. The slag is then separated from the melt, with the contaminated substances located in the slag. According to the invention, concrete parts are added as the slag-forming agent. The concrete parts can be obtained from concrete debris, in particular contaminated concrete debris, and be granulated or ground before being added to the melt. | ||||||
160 | Verfahren zur Herstellung von natursteinähnlichen, plattenförmigen Bau- und Dekorationsmaterialien und danach hergestellte Materialien | EP95104437.9 | 1995-03-25 | EP0688740A3 | 1996-05-08 | Greulich, Norbert, Dr. |
Die Erfindung betrifft ein Verfahren zur Herstellung von natursteinähnlichen, plattenförmigen Bau- und Dekorationsmaterialien hoher Festigkeit zur Verkleidung von Fassaden, Wänden und Böden im Innen- und Außenbereich aus temperaturbehandelten Abmischungen von gebrochenem Glas, keramischen Komponenten und feinteiligen Zusätzen und nach dem Verfahren hergestellte Materialien. |