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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61 | Verfahren zum schadlosen Deponieren von verfestigten anorganischen Reststoffen und Abfällen in aufgelassenen Steinbrüchen | EP91114326.1 | 1991-08-27 | EP0482314B1 | 1996-08-07 | Roeder, Alfred, Dr. rer.nat. Dipl.-Phys.; Hennecke, Hans Peter, Dr.-Ing. Dipl.-Ing.; Schäfer, Reinhold, Dipl.-Ing; Stroh, Dieter, Dr.-Ing.; Wenzel, Friedrich-Wilhelm, Dipl.-Ing. |
62 | Porous carbonaceous material and a method for producing the same | EP94117215.7 | 1994-10-31 | EP0651452A1 | 1995-05-03 | Tajiri, Hiroyuki; Nakagawa, Yoshiteru; Iwaya, Yoshiaki; Asami, Keiichi; Tanaka, Yoshiharu; Touma, Katsuyuki; Okumura, Shinji |
A slurry containing a precursor fiber convertible to carbon fiber and/or a carbon fiber and a thermosetting resin is processed into a random web. The web is hot-pressed between a pair of belts while curing of the resin is inhibited to prepare a prepreg sheet. The sheet is disposed, leaving a clearance, in a mold having ribs on a molding surface and heated over the melting point of the resin for expansion and complete cure to provide a porous composite sheet equipped with grooves. This porous composite sheet is carbonized or graphitized to produce a porous carbonaceous material for use as a fuel cell electrode material and so on. This porous carbonaceous material has high homogeneity, gas permeability, electrical conductivity, heat conductivity and mechanical strength. |
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63 | PROCESS FOR PREPARATION OF CARBONACEOUS MOLDED BODY HAVING EXCELLENT COMPRESSIVE ELASTICITY | EP90902688.2 | 1990-02-06 | EP0424537B1 | 1995-04-26 | FUJII, Masaki; MINOHATA, Masanori |
A method for producing a carbonaceous molding of the invention comprises molding a mixture of elastic graphite particles with a binder to give a lightweight elastic carbonaceous molding having a bulk density of at most 1.0 g/cm3 and a recovery of at least 50 % at a compressibility of 5 to 50 %. | ||||||
64 | PRODUCTION OF CARBONACEOUS MOLDING HAVING EXCELLENT COMPRESSIVE MODULUS | EP90902688 | 1990-02-06 | EP0424537A4 | 1993-01-27 | FUJII, MASAKI; MINOHATA, MASANORI |
A method for producing a carbonaceous molding of the invention comprises molding a mixture of elastic graphite particles with a binder to give a lightweight elastic carbonaceous molding having a bulk density of at most 1.0 g/cm3 and a recovery of at least 50 % at a compressibility of 5 to 50 %. | ||||||
65 | Verfahren zum schadlosen Deponieren von verfestigten anorganischen Reststoffen und Abfällen in aufgelassenen Steinbrüchen | EP91114326.1 | 1991-08-27 | EP0482314A3 | 1992-10-14 | Roeder, Alfred, Dr. rer.nat. Dipl.-Phys.; Hennecke, Hans Peter, Dr.-Ing. Dipl.-Ing.; Schäfer, Reinhold, Dipl.-Ing; Stroh, Dieter, Dr.-Ing.; Wenzel, Friedrich-Wilhelm, Dipl.-Ing. |
Die Erfindung betrifft ein Verfahren zum schadlosen Deponieren von verfestigten anorganischen Reststoffen und Abfällen, insbesondere solchen aus Rauchgasreinigungsanlagen oder aus metallurgischen Prozessen, in aufgelassenen Steinbrüchen durch Vermischen der Rückstände oder Mischungen aus Rückständen mit einer ausreichenden Menge an hydraulischen Bindemitteln, wie Portland-, Hochofen-, Alinitzement, und durch Zugabe der erforderlichen Menge an Anmachwasser im Verlaufe erneuter Durchmischung, so daß eine erstarrungsfähige Betonmörtelmischung entsteht, Kennzeichen der Erfindung ist, daß die Betonmörtelmischung auf eine Festigkeit von gleich oder größer als 2 N/mm² (nach 7 Tagen) und einem Durchlässigkeitswert von Kf gleich oder kleiner als 10⁻⁹ m/s eingestellt wird, auf einer Basisabdichtung, die auf der Steinbruchsohle aufgebracht ist, zu einem monolithischen Deponiekörper mit steilen Flankenwänden lagenweise hochgezogen wird und daß der verbleibende freie Raum zwischen Deponiekörper und Steinbruchwand mit inerten Materialien verfüllt wird und daß nach Abschluß der Deponiearbeiten der Deponiekörper in üblicher Weise mit einer geeigneten Oberflächenabdichtung versehen wird. |
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66 | POROUS CORDIERITE CERAMIC HONEYCOMB ARTICLE WITH IMPROVED STRENGTH AND METHOD OF MANUFACTURING SAME | EP06844406.6 | 2006-11-16 | EP1957180A1 | 2008-08-20 | BEALL, Douglas M; MERKEL, Gregory A; THOMPSON, David J |
A porous cordierite ceramic honeycomb article with increased mechanical strength and thermal shock resistance. The porous cordierite ceramic honeycomb article has MA < 2220, or MT > 2660 wherein MA = 3645 (IA) - 106 (CTE) + 19 (d90) + 17 (%porosity), MT = 4711 (IT) + 116 (CTE) - 26 (d90) - 28 (%porosity), and a CTE 9 x 10-7/°C in at least one direction. A method of manufacturing is also disclosed wherein the inorganic raw material mixture contains talc, an alumina-forming source, a silica-forming source, and 0 - 18 wt. % of a kaolin or calcined kaolin containing not more than 8 wt. % of a fine kaolin source having a median particle diameter of less than 7 µm, wherein the fired porous ceramic cordierite honeycomb article has a porosity < 54%. Alternatively, if greater than 8 wt. % of the fine kaolin source is used, then a slow ramp rate is utilized from 1200 C to 1300 C of not more than 20 C/hr. | ||||||
67 | CEMENT TYPE KNEADED MOLDED ARTICLE HAVING HIGH BENDING STRENGTH AND COMPRESSIVE STRENGTH, AND METHOD OF PRODUCTION THEREOF | EP94910533.2 | 1994-03-25 | EP0692464B1 | 2002-06-19 | SONODA, Hiroki; KAGA, Kikuo; NITTA, Tatsuo; TOYAMA, Masakazu; OSAWA, Seihachi; KATO, Kazumi, Central Research Laboratory of |
A molded cured product obtained from a kneaded material using hydraulic powdery material, latent hydraulic fine powder, compounding water and if necessary, fine aggregate is hot aged under a specific condition so that silicic acid anion of at least a trimer is formed in calcium silicate hydrate formed in the texture of this molded cured product. This molded cured product has a compressive strength of at least 1,000 kgf/cm<2> and a bending strength of at least 150 kgf/cm<2>, and can suitably improve strength characteristics, particularly the bending strength as characterising drawback of cement type products, without using a specific reinforcing material and a compounding material such as a fiber, or even when these reinforcing material and compounding material are used, by drastically reducing their quantities. Accordingly, the present invention can advantageously provide a unique and novel cement type product. Incidentally, beautiful mortar or concrete products by glost firing, which has not been able to be practised due to unavoidable drop of strength characteristics, can be produced and provided as products having desirable bending strength, compressive strength and elastic modulus. | ||||||
68 | Procédé de préparation d'une pièce en béton présentant une surface lisse, pièce en béton et utilisation comme pièce de peau ou comme outil d'emboutisage | EP00401871.9 | 2000-06-30 | EP1065188A1 | 2001-01-03 | Schwartzentruber, Arnaud |
Procédé comprenant :
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69 | Verfahren zur Herstellung von Faserverbundwerkstoffen, insbesondere Doppelbodenplatten | EP93103900.2 | 1993-03-10 | EP0561270B2 | 2000-08-30 | Sattler, Heinz, Dr.-Ing.; Thole, Volker, Dipl.-Ing.; Pallhorn, Sebald, Dipl.-Ing.; Schmelmer, Bernhard |
70 | Panneau d'isolation thermique et/ou acoustique et ses procédés d'obtention | EP93402041.3 | 1993-08-11 | EP0594469B1 | 1998-03-18 | Ferrary, Pierre; Haggiage, Johnny; Viot, Jean-Francois |
71 | PROCEDE ET COMPOSITION POUR FABRIQUER DES ELEMENTS EN BETON AYANT UNE RESISTANCE A LA COMPRESSION ET UNE ENERGIE DE FRACTURATION REMARQUABLES ET ELEMENTS AINSI OBTENUS | EP94921000 | 1994-06-30 | EP0658152B1 | 1997-12-29 | RICHARD PIERRE EMILE FELIX; CHEYREZY MARCEL HUBERT; DUGAT JEROME ANTOINE |
The invention relates to a preparation of a concrete having a compression resistance of at least 400 MPa and a fracturation energy of at least 1 000 J/m2. A mix containing substantially cement, fine sand, amorphous silica, crushed quartz, steel wool, a fluidifying agent and water in specific proportions is mixed and, after setting, the concrete is fired at a temperature of at least 250 °C. The figure is a micrography showing the microstructure of concrete according to the invention. The invention provides particularly for the making of concrete parts in replacement of steel, for example anchoring heads for prestressed cables. | ||||||
72 | Verfahren zur Herstellung von Faserverbundwerkstoffen, insbesondere Doppelbodenplatten, sowie mit dem Verfahren hergestellte Platten | EP93103900.2 | 1993-03-10 | EP0561270B1 | 1997-08-06 | Sattler, Heinz, Dr.-Ing.; Thole, Volker, Dipl.-Ing.; Pallhorn, Sebald, Dipl.-Ing.; Schmelmer, Bernhard |
73 | CEMENT TYPE KNEADED MOLDED ARTICLE HAVING HIGH BENDING STRENGTH AND COMPRESSIVE STRENGTH, AND METHOD OF PRODUCTION THEREOF | EP94910533 | 1994-03-25 | EP0692464A4 | 1996-12-18 | SONODA HIROKI; KAGA KIKUO; NITTA TATSUO; TOYAMA MASAKAZU; OSAWA SEIHACHI; KATO KAZUMI CENTRAL RESEARCH L |
A molded cured product obtained from a kneaded material using hydraulic powdery material, latent hydraulic fine powder, compounding water and if necessary, fine aggregate is hot aged under a specific condition so that silicic acid anion of at least a trimer is formed in calcium silicate hydrate formed in the texture of this molded cured product. This molded cured product has a compressive strength of at least 1,000 kgf/cm<2> and a bending strength of at least 150 kgf/cm<2>, and can suitably improve strength characteristics, particularly the bending strength as characterising drawback of cement type products, without using a specific reinforcing material and a compounding material such as a fiber, or even when these reinforcing material and compounding material are used, by drastically reducing their quantities. Accordingly, the present invention can advantageously provide a unique and novel cement type product. Incidentally, beautiful mortar or concrete products by glost firing, which has not been able to be practised due to unavoidable drop of strength characteristics, can be produced and provided as products having desirable bending strength, compressive strength and elastic modulus. | ||||||
74 | PROCEDE ET COMPOSITION POUR FABRIQUER DES ELEMENTS EN BETON AYANT UNE RESISTANCE A LA COMPRESSION ET UNE ENERGIE DE FRACTURATION REMARQUABLES ET ELEMENTS AINSI OBTENUS | EP94921000.0 | 1994-06-30 | EP0658152A1 | 1995-06-21 | RICHARD, Pierre,Emile, Félix; CHEYREZY, Marcel, Hubert; DUGAT, Jérôme, Antoine |
The invention relates to a preparation of a concrete having a compression resistance of at least 400 MPa and a fracturation energy of at least 1 000 J/m2. A mix containing substantially cement, fine sand, amorphous silica, crushed quartz, steel wool, a fluidifying agent and water in specific proportions is mixed and, after setting, the concrete is fired at a temperature of at least 250 °C. The figure is a micrography showing the microstructure of concrete according to the invention. The invention provides particularly for the making of concrete parts in replacement of steel, for example anchoring heads for prestressed cables. | ||||||
75 | Panneau d'isolation thermique et/ou acoustique et ses procédés d'obtention | EP93402041.3 | 1993-08-11 | EP0594469A1 | 1994-04-27 | Ferrary, Pierre; Haggiage, Johnny; Viot, Jean-Francois |
. Panneau d'isolation thermique et/ou acoustique caractérisé en ce qu'il comprend un mélange séché :
Procédés d'obtention dudit panneau à partir d'un gâteau de filtration issu de la réaction de précipitation d'une silice. |
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76 | Verfahren zur Herstellung von Faserverbundwerkstoffen, insbesondere Doppelbodenplatten, sowie mit dem Verfahren hergestellte Platten | EP93103900.2 | 1993-03-10 | EP0561270A1 | 1993-09-22 | Sattler, Heinz, Dr.-Ing.; Thole, Volker, Dipl.-Ing.; Pallhorn, Sebald, Dipl.-Ing.; Schmelmer, Bernhard |
Die Erfindung betrifft ein Verfahren zur Herstellung von Verbundwerkstoffen, insbesondere Doppelbodenplatten, aus durch Hydratbildung mit Anmachwasser erhärtenden Bindemitteln und Fasern (Einsatzstoffe), wobei
Die Erfindung betrifft weiter die mit dem Verfahren hergestellten Verbundwerkstoffe. |
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77 | Verfahren zum schadlosen Deponieren von verfestigten anorganischen Reststoffen und Abfällen in aufgelassenen Steinbrüchen | EP91114326.1 | 1991-08-27 | EP0482314A2 | 1992-04-29 | Roeder, Alfred, Dr. rer.nat. Dipl.-Phys.; Hennecke, Hans Peter, Dr.-Ing. Dipl.-Ing.; Schäfer, Reinhold, Dipl.-Ing; Stroh, Dieter, Dr.-Ing.; Wenzel, Friedrich-Wilhelm, Dipl.-Ing. |
Die Erfindung betrifft ein Verfahren zum schadlosen Deponieren von verfestigten anorganischen Reststoffen und Abfällen, insbesondere solchen aus Rauchgasreinigungsanlagen oder aus metallurgischen Prozessen, in aufgelassenen Steinbrüchen durch Vermischen der Rückstände oder Mischungen aus Rückständen mit einer ausreichenden Menge an hydraulischen Bindemitteln, wie Portland-, Hochofen-, Alinitzement, und durch Zugabe der erforderlichen Menge an Anmachwasser im Verlaufe erneuter Durchmischung, so daß eine erstarrungsfähige Betonmörtelmischung entsteht, Kennzeichen der Erfindung ist, daß die Betonmörtelmischung auf eine Festigkeit von gleich oder größer als 2 N/mm² (nach 7 Tagen) und einem Durchlässigkeitswert von Kf gleich oder kleiner als 10⁻⁹ m/s eingestellt wird, auf einer Basisabdichtung, die auf der Steinbruchsohle aufgebracht ist, zu einem monolithischen Deponiekörper mit steilen Flankenwänden lagenweise hochgezogen wird und daß der verbleibende freie Raum zwischen Deponiekörper und Steinbruchwand mit inerten Materialien verfüllt wird und daß nach Abschluß der Deponiearbeiten der Deponiekörper in üblicher Weise mit einer geeigneten Oberflächenabdichtung versehen wird. |
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78 | 마블칩의 침강 편차가 없는 인조 대리석 | KR1020020039326 | 2002-07-08 | KR1020040005044A | 2004-01-16 | 김동희; 정동춘 |
PURPOSE: Provided is an artificial marble having homogeneous marble chip distribution on both sides of marble due to no change in sedimentation rate of marble chips by using marble chips having uniform density and monomer absorption without using an additive like thickener. CONSTITUTION: The artificial marble comprises 100pts.wt. of artificial marble slurry and 5-70pts.wt. of marble chips. The marble slurry is composed of 100pts.wt. of acrylic resin syrup containing more than 65wt.% of acrylic monomer and less than 35wt.% of polymer, 120-200pts.wt. of inorganic marble filling materials, 2-10wt.% of plasticizer and 0.1-10pts.wt. of polymerization initiator such as benzoyl peroxide or azobis isobutyronitrile. The marble chip, being 0.1-5mm in size, is composed of 100pts.wt. of acrylic resin syrup, 100-150pts.wt. of inorganic marble filling materials, 2-10wt.% of plasticizer and 0.1-10pts.wt. of polymerization initiator. The plasticizer is selected from ethylene glycol dimethacrylate, propylene glycol dimethacrylate and glycerol trimethacrylate. The inorganic filling materials, being 1-100micrometer in size, are selected from CaCO3, Al(OH)3, SiO2, Al2O3 and Mg(OH)2. | ||||||
79 | 야광성 인조석 구조체 | KR2020030012856 | 2003-04-25 | KR200327189Y1 | 2003-09-19 | 윤석봉 |
야광성 인조석 구조체가 개시된다. 야광성 인조석 구조체는 소정 형상으로 인조석으로 형성된 인조석 성형체와, 인조석 성형체의 적어도 일면에 소정의 유도 표지마크 형상이 적어도 일부가 매립되게 축광물질로 형성된 방향유도 표시층을 구비한다. 이러한 야광성 인조석 구조체에 의하면, 바닥 및 벽체 등의 마감재로서 이용하면서도 유도 표시기능을 할 수 있어 소방안전 시설용으로 설치된 전등 내장형 유도표지판을 대체할 수 있는 장점을 제공한다. | ||||||
80 | 재생골재를 이용한 고강도, 고내구성 다기능 하이브리드투수콘크리트 포장의 제조방법 | KR1020010089333 | 2001-12-31 | KR1020020012529A | 2002-02-16 | 박승범 |
PURPOSE: Provided is a method for producing high strength, high durability, multi-functional hybrid water permeable concrete pavement which can secure traveling stability in raining, reduce traffic noise and inhibit hydroplaning. CONSTITUTION: The method comprises mixing three kinds of high early-strength cements under KS standard and recycled aggregates or macadamized aggregates having a maximum particle size of 5 to 20 mm, a specific gravity of 2.20 to 2.70, a weight per unit volume of 1,200 kg/m¬3 to 1,600 kg/m¬3 and a solid volume percentage of 45.0 to 60.0%; and adding 20 % by volume of high purity fly ash having a specific gravity of 1.9 to 2.3, a specific surface area of 3,000 cm¬2/g or more and a particle size of less than 4.2 x 10¬-2; and 20 % by volume of blast slag aggregates having a particle size of 2.5 mm and a specific gravity of 2.73, based on the volume of the cement. |