序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
21 | INTERGROUND FIBER CEMENT | EP93903466.0 | 1993-01-25 | EP0632792A1 | 1995-01-11 | VONDRAN, Gary, L. |
A fiber-hydratable cement composition comprising a uniform dispersion of from 0.0001 to 10 volume percent interground fiber in hydratable cement powder is prepared by introducing fiber precursors and cement clinker to a grinding mill and grinding the mixture until the clinker has been reduced to a fine powder. The fiber can be steel, alkaline resistant glass, ceramic, carbon or organic polymer, and preferably are steel, polyolefin or mixtures thereof. | ||||||
22 | Flexible graphite article and method of manufacture | EP10171152.1 | 2000-04-07 | EP2248645A1 | 2010-11-10 | Mercuri, Robert Angelo; Capp, Joseph Paul; Warddrip, Michael Lee; Weber, Thomas William |
There is disclosed a method for the continuous production of resin-impregnated flexible graphite sheet, the method comprising (i) reacting raw natural graphite flake-like particles with a liquid intercalant solution to form intercalated graphite particles; (ii) exposing the intercalated graphite particles to a temperature of at least about 700° C to expand the intercalated graphite particles to form a stream of exfoliated graphite particles; (iii) continuously compressing the stream of exfoliated graphite particles into a continuous coherent self-supporting mat of flexible graphite; (iv) continuously contacting the flexible graphite mat with liquid resin and impregnating the mat with liquid resin; and (v) continuously calendering the flexible graphite mat to increase the density thereof to form a continuous flexible graphite sheet having a thickness of no more than about 1.0 inches.
|
||||||
23 | Matériau isolant thermique à base de fibres d'alumine et sa fabrication | EP95400529.4 | 1995-03-13 | EP0672638B1 | 2003-10-22 | Shchetanov, Boris Vladimirovich; Mizyurina, Galina Timotheivna; Gribkov, Vladimir Nikolaevich; Shalin, Radii Evguenievich; Kachanov, Evgueni Borissovich |
24 | Verfahren und Anlage zum Behandeln von Mineralwolleabfällen | EP92106574.4 | 1992-04-16 | EP0526697B1 | 1996-07-24 | Heinelt, Wolfgang |
25 | Verfahren zur Aufbereitung von faserstoffhaltigen Materialien | EP94114346.3 | 1994-09-13 | EP0644000A1 | 1995-03-22 | Gock, Eberhard, Prof.Dr.-Ing.; Florescu, Roman; Betgovargez, Wiliamin, Dipl.-Min. |
Verfahren zur Aufbereitung von natürlichen bzw. synthetischen anorganischen oder organischen Faserstoffen und faserstoffhaltigen Materialien zu faserfreien Stoffsuspensionen bzw. Pulvern, durch eine Kombination von Kaltversprödung, mehrstufiger Aufschlußmahlung und Behandlung im Zentrifugalfeld. |
||||||
26 | Verfahren und Anlage zum Behandeln von Mineralwolleabfällen | EP92106574.4 | 1992-04-16 | EP0526697A3 | 1993-09-08 | Heinelt, Wolfgang |
Die Erfindung betrifft ein Verfahren zur Behandlung von Mineralwolle-Abfaellen, die bei der Herstellung von Mineralwolle und Mineralwolle-Produkten entstehen, sowie eine Anlage zur Durchfuehrung des Verfahrens. Aufgabe ist es, diese Abfaelle in oekonomisch vertretbarer Art und Weise so aufzubereiten, dasz sie einer weiteren Verwertung zugefuehrt werden koennen. Dies wird erreicht, indem die Mineralwolle-Abfaelle feingemahlen werden auf eine Korngroesze von maximal 50 % R0,090 mm. Dieses Mahlprodukt wird mit einem festen Bindemittel oder mit einer festigkeitssteigernden Fluessigkeit vermengt und zu Formlingen, beispielsweise Granalien, in einer Groesze von ca. 50 mm geformt, denen im Anschlusz durch Trocknung die Feuchtigkeit bei gleichzeitiger Festigkeitssteigerung entzogen wird. |
||||||
27 | Verfahren und Anlage zum Behandeln von Mineralwolleabfällen | EP92106574.4 | 1992-04-16 | EP0526697A2 | 1993-02-10 | Heinelt, Wolfgang |
Die Erfindung betrifft ein Verfahren zur Behandlung von Mineralwolle-Abfaellen, die bei der Herstellung von Mineralwolle und Mineralwolle-Produkten entstehen, sowie eine Anlage zur Durchfuehrung des Verfahrens. Aufgabe ist es, diese Abfaelle in oekonomisch vertretbarer Art und Weise so aufzubereiten, dasz sie einer weiteren Verwertung zugefuehrt werden koennen. Dies wird erreicht, indem die Mineralwolle-Abfaelle feingemahlen werden auf eine Korngroesze von maximal 50 % R0,090 mm. Dieses Mahlprodukt wird mit einem festen Bindemittel oder mit einer festigkeitssteigernden Fluessigkeit vermengt und zu Formlingen, beispielsweise Granalien, in einer Groesze von ca. 50 mm geformt, denen im Anschlusz durch Trocknung die Feuchtigkeit bei gleichzeitiger Festigkeitssteigerung entzogen wird. |
||||||
28 | FLEXIBLE GRAPHITE ARTICLE AND METHOD OF MANUFACTURE | EP00948492.4 | 2000-04-07 | EP1097106A1 | 2001-05-09 | MERCURI, Robert, Angelo; CAPP, Joseph, Paul; WARDDRIP, Michael, Lee; WEBER, Thomas, William |
A flexible graphite sheet (100) exhibiting enhanced isotropy is provided. In addition, an apparatus, system and method for continuously producing a resin-impregnated flexible graphite sheet is also provided. | ||||||
29 | Verfahren zur Aufbereitung von faserstoffhaltigen Materialien | EP94114346.3 | 1994-09-13 | EP0644000B1 | 1999-08-11 | Gock, Eberhard, Prof.Dr.-Ing.; Florescu, Roman; Betgovargez, Wiliamin, Dipl.-Min. |
30 | VERFAHREN ZUR HERSTELLUNG VON MINERALWOLLE-FORMKÖRPERN | EP95912235.9 | 1995-03-09 | EP0749405B1 | 1998-01-07 | KLOSE, Gerd-Rüdiger |
Mineral wool shaped bodies and other mineral wool products are generally used for the heat and sound insulation of buildings, industrial plants, remote heat carriers, etc.. In a method by means of which novel uses and applications for mineral wool can be developed, mineral fibres which are mixed with binders in amounts of approximately 1 to 10 wt % relative to the total weight are reduced to lengths of a few millimetres; these mineral fibres mixed with binders are subjected to a pelletizing process to form spherical or cylindrical pellets approximately 3 to 15 mm in size; and the pellets are subjected to further processing and hardening of the binder. | ||||||
31 | INTERGROUND FIBER CEMENT. | EP93903466 | 1993-01-25 | EP0632792A4 | 1996-02-07 | VONDRAN GARY L |
A fibre-hyratable cement composition features that the said hydratable cement powder contains uniformly dispersed grinding fibres (0.0001-10 V.%), which may be steel, alkali-resistant glass, ceramic, carbon, or organic polymer fibres (preferably, steel, polyolefine fibres, or their mixture). Its preparing process includes grinding fibre with cement clinker until the cement clinker become fine powder. | ||||||
32 | Matériau isolant thermique à base de fibres d'alumine et sa fabrication | EP95400529.4 | 1995-03-13 | EP0672638A1 | 1995-09-20 | Shchetanov, Boris Vladimirovich; Mizyurina, Galina Timotheivna; Gribkov, Vladimir Nikolaevich; Shalin, Radii Evguenievich; Kachanov, Evgueni Borissovich |
Ce matériau poreux, anisotrope contient : de 70 à 90 % en poids de fibres à base d'alumine (composées de 72 à 97 % en poids d'Al₂O₃ et de 3 à 28 % en poids de SiO₂, avec un diamètre moyen ≦ 2 µm, un rapport d'élancement (l/d) moyen de 30 à 130, une résistance d'au moins 600 MPa et une température de classe 1650°C) et de 10 à 30 % en poids de liant de type aluminosilicate ; présente : une masse volumique de 0,15 à 0,5 g/cm³ ; un retrait linaire, après 24 heures à 1600°C, non supérieur à 2 % dans sa direction "forte" et non supérieur à 4 % dans sa direction "faible" ; dans sa direction "faible", une résistance à la traction d'au moins 0,15 MPa et une résistance à la compression d'au moins 0,2 MPa ; une anisotropie de 1,3 à 4 ; et a une température de service de 1600°C sur une longue période. Application à la protection thermique de véhicules ou capsules spatiaux. |
||||||
33 | Verfahren zur Aufbereitung von faserstoffhaltigen Materialien in einer Exzenter-Schwingmühle | EP95103286.1 | 1995-03-08 | EP0672469A1 | 1995-09-20 | Gock, Eberhard, Prof. Dr.-Ing.; Florescu, Roman; Betgovargez, Wiliamin, Dipl.-Min. |
In einem Verfahren zur Aufbereitung von natürlichen und/oder synthetischen, anorganischen oder organischen Faserstoffen und faserstoffhaltigen Materialien wird das aufzubereitende Material in einer Exzenter-Schwingmühle trocken vermahlen. |
||||||
34 | 카펫형 아스팔트 콘크리트 혼합물의 제조방법 | KR1020120137438 | 2012-11-29 | KR101270727B1 | 2013-06-03 | 윤태영; 유평준; 엄병식; 최지영; 함상민 |
PURPOSE: A manufacturing method of carpet-type asphalt concrete is provided to manufacture an asphalt concrete mixture in a reelable form by mixing a modified asphalt binder, which is made of an epoxy resin, an asphalt binder, glass fiber scraps and waste tire powder, with aggregate. CONSTITUTION: A manufacturing method of carpet-type asphalt concrete(1) comprises the steps of: (A) mixing an epoxy resin with an asphalt binder at a temperature equal to or less than a predetermined temperature; (B) preparing a modified asphalt binder by mixing the asphalt binder mixed with the epoxy resin with glass fiber scraps and a waste tire powder; (C) mixing the modified asphalt binder with an aggregate; (D) tramping and curing the mixture of the modified asphalt binder and the aggregate in a rectangular mold frame. In step (A), a temperature for the mixing is 80°C or less. In step (A), a ratio of a main agent and a curing agent of the epoxy resin is 1:1. In step (B), a weight of the waste tire powder is 5 to 10 wt% based on a weight of the aggregate, and a weight of the glass fiber scraps is 3 to 5 wt% based on a weight of the aggregate. In step (C), a temperature for the mixing is 120 to 135°C. [Reference numerals] (AA) Start; (BB) Finish; (S1) Mix epoxy and general asphalt binder; (S2) Mix glass fiber and waste tire powder; (S3) Mix aggregate; (S4) Forming frame injection/cure | ||||||
35 | 인공대리석 성형재료의 제조장치 및 제조방법 | KR1020010036291 | 2001-06-25 | KR1020030000496A | 2003-01-06 | 조원선; 김동규 |
PURPOSE: An apparatus and a method for fabricating material of artificial marble are provided to achieve superior quality of a surface of an article by adjusting an amount of color chips to be inputted. CONSTITUTION: A basic compound of artificial marble material except for glass fiber and color chips is introduced into a pair of rollers(1) through an inlet section(3) formed at an upper portion of the rollers(1). A cutting roller(4) for cutting fiber glass in a predetermined size is positioned above the rollers(1). A chip hopper(21) is provided at an upper portion of the rollers(1) in order to store color chips. A scatter roller(23) is adjacent to a lower portion of the chip hopper(21). The scatter roller(23) is formed with a plurality of slots. Color chips stored in the chip hopper(21) are collected in the slots. When scatter roller(23) rotates, color chips positioned in the chip hopper(21) are dropped into the compound introduced into the rollers(1). | ||||||
36 | 공동분쇄된 섬유 시멘트 | KR1019940703312 | 1993-01-25 | KR100244102B1 | 2000-02-01 | 본드란,게리,엘. |
본 발명에 의하면 섬유 전구체와 시멘트 클링커를 연마 분쇄기에 넣고, 클링커가 미세한 분말이 될 때까지 혼합물을 분쇄함으로써, 수화 가능 시멘트 분말 중에 0.0001 내지 10 용적 %의 공동분쇄된 섬유의 균일한 분산물을 함유한 섬유-수화 가능 시멘트 조성물이 제조된다. 섬유는 강철, 내알칼리성 유리, 세라믹, 탄소 또는 유기 고분자일 수 있으며, 바람직하게는 강철, 폴리올레핀 또는 이들의 혼합물이다. | ||||||
37 | 발열/전도 시멘트 몰탈 조성물 및 이를 이용한 발열/전도 콘크리트 시공방법 | KR1020080128233 | 2008-12-17 | KR1020100069732A | 2010-06-25 | 곽상운 |
PURPOSE: A heating/conducting cement mortar composition is provided to simplify construction method of the heating concrete and to improve construction cost in a shorter construction period. CONSTITUTION: A heating/conducting cement mortar composition contains 100.0 of cement, 1-100.0 of glass powder, 1-50 weight parts of epoxy resin, 0.1-50 weight parts of conductive powder, and 10-200 weight parts of mixing water. A heating/conducting concrete contains a hardening material of the heating/conducting cement mortar composition, and an electrode which is connected to the hardening material and power supply device. A method for constructing the heating/conducting concrete comprises: a step of fixing the electrode on a construction surface and a step of installing the heating/conducting cement mortar composition. | ||||||
38 | 투수 세라믹 블럭 | KR1020080092216 | 2008-09-19 | KR100890228B1 | 2009-03-24 | 정선호 |
Pitcher ceramic block is provided to transmit water of which permeability is good effectively and to fall down rainwater into soil through the pitcher ceramic block without separate drainage facility. Pitcher ceramic block contains refractory material powder 60- 90 parts by weight, a first binder of red soil powder 5- 30 parts by weight and tourmaline 1- 5 parts by weight for exhausting negative ion and a second binder including one or more selected from talcum and bentonite. A content of silica and alumina is over 70 parts by weight based on refractory material powder. A pore of the pitcher ceramic block is 25- 30 volume % based on total volume. | ||||||
39 | 난연과 흡음 방음 기능을 갖는 내장재의 제조방법 및내장재의 구조 | KR1020060055758 | 2006-06-21 | KR1020070121115A | 2007-12-27 | 곽종태 |
A method for manufacturing glass articles is provided to produce a good quality of glass articles with high productivity. A method for manufacturing glass articles includes the steps of: (a) forming a first blend by blending 0.02-0.50wt% of a dispersant with 1-25wt% of at least one dopant selected from the metal oxide group consisting of Al2O3, TiO2, CeO2, Nd2O3, B2O3, BaO, SrO, CaO, MgO, Na2O, K2O, Li2O, Sb2O3, Y2O3, Co3O4, Cu2O, Cr2O3, and mixtures thereof, wherein a dispersant is a fumed metal oxide having a BET of 50-400 m^2/g and an average particle size of 1 micron or smaller; (b) blending the first blend with 92-99wt% of SiO2 to form a quartz mixture; (c) preparing a molten glass from the mixture; and (d) manufacturing glass articles from the molten glass using implements. Further, the mixture is manufactured by mixing 67-75 wt% of a sodium silicate, 5-10 wt% of an acryl resin binder and a mixture of an antibacteria agent and an antiseptic at a rate of 5:5. | ||||||
40 | 황토를 주재로 한 건축재의 제조방법과 건축재 | KR1020020047098 | 2002-08-09 | KR1020040013947A | 2004-02-14 | 이상우 |
PURPOSE: Provided is a method for making a construction material using natural loess with no chemical agents and no deformations of the loess, which maximizes the humidity controlling and far infrared ray emitting effects of the loess. CONSTITUTION: The method for making a construction material based on loess comprises the steps of: mixing 70-90 wt% of the loess obtained by drying, crushing and purifying natural loess, 0-15 wt% of paper fibers obtained by swelling in water and separating by a centrifugal separator, 0-15 wt% of crushed chaffs and 0-15 wt% of cotton fibers cut and crushed into about 1 mm; mixing the mixed composition with water, and kneading and drying the mixture. |