子分类:
- C04B2111/00482: ..涂敷或浸渍材料
- C04B2111/00586: ..屋顶材料
- C04B2111/00603: ..天花板材料
- C04B2111/00612: ..有层状结构的一层或多层
- C04B2111/00637: ..作为胶水或粘合剂用于粘合建筑物和构造材料
- C04B2111/00655: ..剖面;轮廓
- C04B2111/00663: ..用于空穴或类似空间的填充物
- C04B2111/00715: ..用于固定螺栓或类似物件
- C04B2111/00724: ..在采矿作业中,例如用于回填;在隧道或走廊建造中
- C04B2111/00732: ..用于土壤稳固
- C04B2111/0075: ..用于筑路
- C04B2111/00758: ..用于农林渔畜牧的应用
- C04B2111/00767: ..用于废弃物或荒地的稳固
- C04B2111/00793: ..用作过滤装置或隔板
- C04B2111/0081: ..用作催化剂或催化剂载体
- C04B2111/00836: ..用于内科或牙科
- C04B2111/00844: ..用于电子应用
- C04B2111/00853: ..在电化电池或蓄电池,例如燃料电池
- C04B2111/00862: ..用于原子核应用,例如吸收射线的混凝土
- C04B2111/0087: ..用于冶金学应用
- C04B2111/00896: ..用作预浸料坯
- C04B2111/00905: ..用作粗加工的成品
- C04B2111/00939: ..用于模具或核心的装配
- C04B2111/00948: ..用作集装箱的装配
- C04B2111/00956: ..用于制作雕塑品或艺术品
- C04B2111/00965: ..用于家庭事务,例如用作烹饪陶器的材料的应用
- C04B2111/00974: ..用作烟火应用,例如爆破作业
- C04B2111/00982: ..用作太空交通工具或飞机的建筑物基础
- C04B2111/00991: ..用于测试
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Plasma gasification reactors with modified carbon beds and reduced coke requirements | US13199814 | 2011-09-09 | US20120061618A1 | 2012-03-15 | James Santoianni; Pieter VanNierop; Michael Erskine Heier; Aleksandr Gorodetsky; Stephanie Reese; Kent Olis Hicks |
| A carbonaceous bed in a reactor includes carbon bearing material that is not coke and rather includes natural wood blocks or bricks formed of non-coke carbonaceous material in a binder along with, as options, other constituents such as catalysts and fluxing agents. The bed reduces the amount of coke required in processes such as for syngas production. Such non-coke units are applicable to an original carbonaceous bed in a reactor and also to replenishment of reacted carbon in the original bed. The bed may include ungasified carbon particulate matter separated from gaseous reaction products of a gasification reactor, either in non-coke bricks or otherwise applied, as may other carbonaceous material often regarded as waste such as spent potliner material from aluminum making and soot residue from a gasification reactor. Certain reactor structural modifications can also result in reduced consumption of carbon in a bed. | ||||||
| 42 | Method of fabricating plaster board | US10508885 | 2003-03-25 | US07686902B2 | 2010-03-30 | Tatsukazu Kimura; Norio Tsuno; Seigo Ishibashi; Hirokuni Tani; Kenichiro Osawa |
| There is provided a lightweight plaster board having a cellular porous plaster core, excellent in adhesion to a covering base paper for a plaster board, free from dry-out in side edge parts of the plaster board, and with no disadvantage in workability for driving a nail into the plaster board. The plaster board includes a plaster core having a front surface, a back surface, and four side surfaces, and at least one covering base paper that covers the front surface, the back surface, and the at least two opposite side surfaces of the plaster core. The plaster core includes one or more hard edge parts each including one of the side surfaces covered with the covering base paper, one or more high-density parts including the front surface or the back surface, not including the side surface covered with the covering base paper, and having a density substantially equal to the density of the hard edge part, and a low-density part having a density less than the densities of the hard edge part and the high-density part and contacting with the hard edge part and the high-density part. The hard edge part does not include a position in which a nail is driven. | ||||||
| 43 | Laminate insulation barriers having a cementitious structural matrix and methods for their manufacture | US427684 | 1995-04-24 | US5631097A | 1997-05-20 | Per J. Andersen; Simon K. Hodson |
| Laminate insulation barriers including a highly insulative layer and a structural layer which has a cementitious structural matrix. The laminate insulation barriers are lightweight and more environmentally compatible than those currently used; they may augment, and even take the place of, traditional insulation materials which typically contain nondegradable, environmentally damaging materials. | ||||||
| 44 | Diamond-based ultra-high-pressure-sintered material having excellent chipping resistance, cutting tool made therefrom, and method of manufacturing the cutting tool | US361386 | 1994-12-22 | US5624756A | 1997-04-29 | Fumihiro Ueda; Tadakazu Oohashi |
| A cutting tool blank formed of material having a composition comprising of 0.1 to 20 wt % of BaCO.sub.3 and/or MgCO.sub.3, and/or 0.05 to 10 wt % of CaMg(CO.sub.3).sub.2 or CaCO3, the balance being preferably substantially diamond forming a matrix is heated and maintained at a temperature of 800.degree. to 1400.degree. C. in a vacuum to change, by chemical reaction, the above BaCO.sub.3 and/or MgCO.sub.3, and/or CaMg(CO.sub.3).sub.2 or CaCO.sub.3 into 0.05 to 13% of BaO and/or MgO and/or 0.02 to 5% of CaO, and to form pores. In this manner, a cutting tool formed of a diamond-based ultra-high-temperature-sintered material having a structure in which BaO, MgO and/or CaO are distributed finely and uniformly in a diamond matrix is obtained. | ||||||
| 45 | CALCIUM-SILICATE-BASED POROUS PARTICLES, COMPOSITION, METHOD OF MAKING AND USE THEREOF | EP16852619.2 | 2016-09-29 | EP3356308A1 | 2018-08-08 | SHAHSAVARI, Rouzbeh; MILLER, Joseph B.; DESIREDDY, Anil; YAMATO, Kazuhiro |
| A method for synthesizing calcium-silicate-based porous particles (CSPPs) is described. Control over CSPP morphology and pore size is achieved through a refined solution-based synthesis, allowing loading of a variety of sealants. These particles, upon external stimuli, release the loaded sealant into the surrounding material. Methods of loading the CSPPs with loading sealant are described. The CSPPs may be used in pure form or mixed with another material to deliver self-healing, sealing and multi-functional properties to a physical structure. The composition of the CSPPs is described, along with methods of use of the CSPPs. | ||||||
| 46 | GYPSUM BOARD AND METHOD OF MANUFACTURING THE GYPSUM BOARD | EP03712937 | 2003-03-25 | EP1488920A4 | 2008-08-27 | KIMURA TATSUKAZU; TSUNO NORIO; ISHIBASHI SEIGO; TANI HIROKUNI; OSAWA KENICHIRO |
| There is provided a lightweight plaster board having a cellular porous plaster core, excellent in adhesion to a covering base paper for a plaster board, free from dry-out in side edge parts of the plaster board, and with no disadvantage in workability for driving a nail into the plaster board. The plaster board includes a plaster core having a front surface, a back surface, and four side surfaces, and at least one covering base paper that covers the front surface, the back surface, and the at least two opposite side surfaces of the plaster core. The plaster core includes one or more hard edge parts each including one of the side surfaces covered with the covering base paper, one or more high-density parts including the front surface or the back surface, not including the side surface covered with the covering base paper, and having a density substantially equal to the density of the hard edge part, and a low-density part having a density less than the densities of the hard edge part and the high-density part and contacting with the hard edge part and the high-density part. The hard edge part does not include a position in which a nail is driven. |
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| 47 | Prepolymerlösung schützende und stabilisierende Imprägnierung von porösen Baustoffen | EP94104144.4 | 1994-03-17 | EP0618179A2 | 1994-10-05 | Ragnetti, Maurizio, Dr.; Sasse, Hans R., Prof. Dr.; Höcker, Hartwig, Prof. Dr.; Honsinger, Detlef J., Dr.; Puterman, Moshe, Dr.; Schneider, Uwe, Dr.; Wagener, Silke |
Ein Prepolymer aus einem (Meth)acrylatester, einem ethylenisch ungesättigten Monomer, das eine Epoxydfunktion trägt, und ggf. einer ethylenisch ungesättigten Alkoxysilangruppe, wobei der (Meth)acrylatester zu 48 bis 98 Gew.-% und das epoxydische Monomer zu 0,5 bis 50 Gew.-% vozliegt, ist geeignet zur Imprägnierung von porösen Baumaterialien. Das Prepolymer kann mit einem Vernetzer eingesetzt werden. Das Prepolymer zeichnet sich durch eine niedrige Viskosität < 10 cP aus, ist in vielen Lösungsmitteln löslich und hat eine hohe Eindringtiefe bei guter Hygrophobierung und Festigung des Baumaterials. Das Prepolymer bildet einen Polymerfilm 3, der einzelne Gesteinselemente 1 miteinander verbindet und Poren 2 fleiläßt. |
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| 48 | COATED FILTERS AND METHODS OF PRODUCTION | EP16192346.1 | 2016-10-05 | EP3305745A1 | 2018-04-11 | ANEZIRIS, Christos; GEHRE, Patrick; CHILD, Nicholas; DEBASTIANI, Duane |
Provided is a carbon-bonded filter having a coating comprising gamma alumina, and a method for producing the filter. The method comprises thermally spraying a precursor coating material comprising alpha alumina, at a temperature which is sufficiency high to at least partially convert the alpha alumina to gamma alumina, to a carbon-bonded reticulated filter, so as to produce a carbon-bonded filter having a coating comprising gamma alumina.
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| 49 | PASTE FOR THE CREATION OF FLOORS OR OTHER FINISHED SURFACES | EP03815574.3 | 2003-03-21 | EP1587769A1 | 2005-10-26 | Spada, Adriano |
| The present invention consists of a paste, primarily formed by ground building waste materials, for the creation of finished surfaces, such as floors, coatings, walls and other surfaces. This paste is principally made of lime, active aggregates such as sand-lime, marble powder, stone powder, silica, glass, and acrylic resin. It can be worked in the form of powder or paste, adding water and a retarder. So it is worked with water, laid down, pressed, dried and later smoothed and worked with various substances. | ||||||
| 50 | GYPSUM BOARD AND METHOD OF MANUFACTURING THE GYPSUM BOARD | EP03712937.6 | 2003-03-25 | EP1488920A1 | 2004-12-22 | KIMURA, Tatsukazu; TSUNO, Norio; ISHIBASHI, Seigo; TANI, Hirokuni; OSAWA, Kenichiro |
There is provided a lightweight plaster board having a cellular porous plaster core, excellent in adhesion to a covering base paper for a plaster board, free from dry-out in side edge parts of the plaster board, and with no disadvantage in workability for driving a nail into the plaster board. The plaster board includes a plaster core having a front surface, a back surface, and four side surfaces, and at least one covering base paper that covers the front surface, the back surface, and the at least two opposite side surfaces of the plaster core. The plaster core includes one or more hard edge parts each including one of the side surfaces covered with the covering base paper, one or more high-density parts including the front surface or the back surface, not including the side surface covered with the covering base paper, and having a density substantially equal to the density of the hard edge part, and a low-density part having a density less than the densities of the hard edge part and the high-density part and contacting with the hard edge part and the high-density part. The hard edge part does not include a position in which a nail is driven. |
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| 51 | Prepolymerlösung schützende und stabilisierende Imprägnierung von porösen Baustoffen | EP94104144.4 | 1994-03-17 | EP0618179B1 | 1997-05-02 | Ragnetti, Maurizio, Dr.; Sasse, Hans R., Prof. Dr.; Höcker, Hartwig, Prof. Dr.; Honsinger, Detlef J., Dr.; Puterman, Moshe, Dr.; Schneider, Uwe, Dr.; Wagener, Silke |
| 52 | Prepolymerlösung schützende und stabilisierende Imprägnierung von porösen Baustoffen | EP94104144.4 | 1994-03-17 | EP0618179A3 | 1994-11-17 | Ragnetti, Maurizio, Dr.; Sasse, Hans R., Prof. Dr.; Höcker, Hartwig, Prof. Dr.; Honsinger, Detlef J., Dr.; Puterman, Moshe, Dr.; Schneider, Uwe, Dr.; Wagener, Silke |
Ein Prepolymer aus einem (Meth)acrylatester, einem ethylenisch ungesättigten Monomer, das eine Epoxydfunktion trägt, und ggf. einer ethylenisch ungesättigten Alkoxysilangruppe, wobei der (Meth)acrylatester zu 48 bis 98 Gew.-% und das epoxydische Monomer zu 0,5 bis 50 Gew.-% vozliegt, ist geeignet zur Imprägnierung von porösen Baumaterialien. Das Prepolymer kann mit einem Vernetzer eingesetzt werden. Das Prepolymer zeichnet sich durch eine niedrige Viskosität < 10 cP aus, ist in vielen Lösungsmitteln löslich und hat eine hohe Eindringtiefe bei guter Hygrophobierung und Festigung des Baumaterials. Das Prepolymer bildet einen Polymerfilm 3, der einzelne Gesteinselemente 1 miteinander verbindet und Poren 2 fleiläßt. |
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| 53 | 석고 보드 및 이의 제조 방법 | KR1020047015440 | 2003-03-25 | KR1020040094890A | 2004-11-10 | 키무라,다츠카즈; 츠노,노리오; 이시바시,세이고; 타니,히로쿠니; 오사와,켄이치로 |
| 석고 보드의 커버 원지와의 접착성이 우수하고, 석고 보드의 가장자리부의 드라이 아웃이 없으며, 석고 보드에 대한 못박음질 작업에 불편함이 없는 발포성 석고 코어를 갖는 경량의 석고 보드를 제공한다. 석고 코어는, 커버 원지로 피복된 측면을 포함하는 하나 이상의 경질 에지부; 표면 또는 이면을 포함하며 커버 원지로 피복된 측면을 포함하지 않는, 경질 에지부의 밀도와 실질적으로 동등한 밀도를 갖는 하나 이상의 고밀도부; 및 경질 에지부 및 고밀도부의 밀도보다 낮은 밀도를 가지며, 경질 에지부 및 고밀도부에 접하는 저밀도부를 포함한다. 경질 에지부에는 못 박히는 위치가 포함되지 않는다. | ||||||
| 54 | 다공성 세라믹 펜촉의 제조방법 | KR1019940019715 | 1994-08-10 | KR100126868B1 | 1997-12-29 | 김수룡; 이현재 |
| A process for manufacturing a porous ceramic nib comprises the steps of: mixing a neutralizer, a pore forming agent and a sintering agent to a slurry which comprises a mixture of aluminum hydrate, and acidic aqueous solution containing nitric acid, acetic acid or HCl, followed by agitating; stabilizing the slurry by removing bubbles; molding and cutting the slurry into cylindric or tapered shape; gelling the molded body by passing through a molding medium, neutralizer, or these mixture; drying it at 70-80 deg.C for 6 hr or more to enhance strength; sintering at 800-1500 deg.C for 3-5 hr, followed by grinding. | ||||||
| 55 | 석고 보드 및 이의 제조 방법 | KR1020047015440 | 2003-03-25 | KR100621307B1 | 2006-09-13 | 키무라,다츠카즈; 츠노,노리오; 이시바시,세이고; 타니,히로쿠니; 오사와,켄이치로 |
| 석고 보드의 커버 원지와의 접착성이 우수하고, 석고 보드의 가장자리부의 드라이 아웃이 없으며, 석고 보드에 대한 못박음질 작업에 불편함이 없는 발포성 석고 코어를 갖는 경량의 석고 보드를 제공한다. 석고 코어는, 커버 원지로 피복된 측면을 포함하는 하나 이상의 경질 에지부; 표면 또는 이면을 포함하며 커버 원지로 피복된 측면을 포함하지 않는, 경질 에지부의 밀도와 실질적으로 동등한 밀도를 갖는 하나 이상의 고밀도부; 및 경질 에지부 및 고밀도부의 밀도보다 낮은 밀도를 가지며, 경질 에지부 및 고밀도부에 접하는 저밀도부를 포함한다. 경질 에지부에는 못 박히는 위치가 포함되지 않는다. | ||||||
| 56 | 골재 황토 콘크리트 및 그 시공방법 | KR1020000078864 | 2000-12-19 | KR100397757B1 | 2003-09-13 | 윤석남 |
| PURPOSE: Provided are aggregate loess concrete which generates an eco-friendly road which is beneficial to health of a pedestrian, and a method for constructing the same. CONSTITUTION: The concrete is characterized by sequentially constructing base mortar consisting of 20-70 parts by weight of gypsum, 20-50 parts by weight of loess, 350-380 parts by weight of fine aggregate, 530-580 parts by weight of coarse aggregate, 70-100 parts by weight of cement, miscible material, and the rest of water; and surface mortar consisting of 20-50 parts by weight of loess, 20-70 parts by weight of gypsum, 850-960 parts by weight of quartz sand, 10-20 parts by weight of acryl resin, 5 parts by weight of retardant, 5-10 parts by weight of flowing agent, 50-70 parts by weight of cement, and the rest of water. | ||||||
| 57 | 소수성 마감재를 포함하는 시멘트질 물품 | KR1020157026644 | 2014-03-12 | KR1020150139842A | 2015-12-14 | 두베이,아쉬시; 펭,얀페이 |
| 소수성마감재를가지는시멘트질물품이개시된다. 일부실시태양들에서, 물품은바람직한방수특성을가지는유연성및 소수성시멘트질마감재와대면하는무기광물섬유로표면보강되는방수석고패널이다. 본발명의방수석고패널은많은분야, 예를들면, 건물의습식또는건식구역에서타일뒷판, 외장피복재로사용되는외장내후패널, 및우수한물 내구성및 극히낮은표면흡수성을가지는지붕덮개판에서유용하다. 본발명의유연성및 소수성시멘트질마감재는 C급플라이애쉬, 성막중합체, 실란화합물 (예를들면, 알킬알콕시실란), 및다른선택적첨가제들을포함한다. | ||||||
| 58 | 펌프 부품을 구성하는 레진콘 조성물 및 이를 이용한 펌프 부품의 제조방법 | KR1020030064339 | 2003-09-17 | KR1020050028075A | 2005-03-22 | 최춘선 |
| Provided is a method for manufacturing pump parts, such as pump casing and impeller, having lightweight, corrosion resistance and good mechanical property by using resin concrete as raw materials. The resin concrete composition comprises 11-13wt.% of unsaturated polyester resin, 9-11wt.% of CaCO3 as inorganic fillers, 48-58wt.% of fine sand containing 45-55wt.% of 2-3mm size sand and 45-55wt.% of 4-5mm size sand, 18-22wt.% of aggregate(8-10mm size) such as gravel, sand, silica and andesite, and 4-6wt.% of iron wire. Also, the resin concrete composition comprises 10-12wt.% of unsaturated polyester resin, 8-10wt.% of CaCO3, 43-53wt.% of fine sand, 17-19wt.% of aggregate, 4-5wt.% of iron wire and 8-12wt.% of glass fiber. In the compositions, CaCO3 is substituted by fly ash, silica, clay, talc, Al(OH)3 or TiO2. The pump parts such as pump casing and impeller are manufactured by the following steps of: removing impurities from a mold (100); applying mold-releasing oil to the inside of the mold (200); assembling the mold (300); feeding resin concrete materials into a mold with vibration (400); curing resin concrete in the mold at 70-90deg.C to increase the hardness of resin concrete(500) and de-molding (600); processing resin concrete products (700). | ||||||
| 59 | 골재 황토 콘크리트 및 그 시공방법 | KR1020000078864 | 2000-12-19 | KR1020020049656A | 2002-06-26 | 윤석남 |
| PURPOSE: Provided are aggregate loess concrete which generates an eco-friendly road which is beneficial to health of a pedestrian, and a method for constructing the same. CONSTITUTION: The concrete is characterized by sequentially constructing base mortar consisting of 20-70 parts by weight of gypsum, 20-50 parts by weight of loess, 350-380 parts by weight of fine aggregate, 530-580 parts by weight of coarse aggregate, 70-100 parts by weight of cement, miscible material, and the rest of water; and surface mortar consisting of 20-50 parts by weight of loess, 20-70 parts by weight of gypsum, 850-960 parts by weight of quartz sand, 10-20 parts by weight of acryl resin, 5 parts by weight of retardant, 5-10 parts by weight of flowing agent, 50-70 parts by weight of cement, and the rest of water. | ||||||
| 60 | Method of manufacturing mortar and coating structure, as well as mortar | JP2005185664 | 2005-05-30 | JP4458425B2 | 2010-04-28 | 尚史 村上 |
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