| 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 | NON-COMBUSTIBLE COMPOSITE MATERIAL STRUCTURE AND PRODUCTION THEREOF. | EP93910329 | 1993-05-12 | EP0593784A4 | 1995-04-19 | KAEMPEN CHARLES E |
| A method of producing a non-combustible composite material structure, which comprises the steps of forming a non-combustible liquid continuous phase matrix by adding and mixing metal oxide powder and liquid soluble silicate, preparing a dispersed phase comprising non-combustible fibers or particles, forming an intermediate structure of a composite material by wetting the dispersed phase by the liquid continuous phase, and drying the intermediate structure to cure the continuous phase and obtaining a solidified non-combustible composite material structure. A preferred method provides a composite material laminate structure of a plurality of layers containing continuous glass fibers oriented in two directions. This composite material structure is available in various forms such as a tube structure, a sheet member, a foamed heat insulating material and a paint coating material. |
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| 22 | NON-COMBUSTIBLE COMPOSITE MATERIAL STRUCTURE AND PRODUCTION THEREOF | EP93910329.7 | 1993-05-12 | EP0593784A1 | 1994-04-27 | KAEMPEN, Charles, E. |
A method of producing a non-combustible composite material structure, which comprises the steps of forming a non-combustible liquid continuous phase matrix by adding and mixing metal oxide powder and liquid soluble silicate, preparing a dispersed phase comprising non-combustible fibers or particles, forming an intermediate structure of a composite material by wetting the dispersed phase by the liquid continuous phase, and drying the intermediate structure to cure the continuous phase and obtaining a solidified non-combustible composite material structure. A preferred method provides a composite material laminate structure of a plurality of layers containing continuous glass fibers oriented in two directions. This composite material structure is available in various forms such as a tube structure, a sheet member, a foamed heat insulating material and a paint coating material. |
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| 23 | 직경과 용융점 차이를 갖는 섬유와 분말로 구성된 복합소재폭렬방지재 및 이 폭렬방지재를 이용한 고강도 내화 콘크리트 | KR1020080134286 | 2008-12-26 | KR1020100076284A | 2010-07-06 | 이주호; 박순전; 김정진; 김광기; 문형재; 황인성; 정용; 최진만; 신재경; 김세훈; 최창휴; 김휘찬 |
| PURPOSE: A composite spalling-preventing material and high intensity fire-proof concrete using thereof are provided to obtain the high intensity fire-proof concrete with the improved flowability by reducing the amount of fiber inside the material. CONSTITUTION: A composite spalling-preventing material contains powder and fibers in a volume ratio of 1:1~3. The powder is a polymer powder with the diameter of 0.1~0.5 millimeters, and the melting point of 110~150deg C. The fibers are conjugate fibers mixed with a single fiber formed with a first fiber including the diameter of 0.05~0.1 millimeters, and the melting point of 150~190deg C, and a second fiber with the diameter of 0.01~0.05 millimeters, and the melting point of 190~250deg C. | ||||||
| 24 | 소각재를 이용한 인공어초용 성형물의 제조방법 | KR1020080004798 | 2008-01-16 | KR1020090078935A | 2009-07-21 | 백태현 |
| A method for manufacturing moldings for artificial fish reef at a little cost is provided to recycle industrial waste in an environment-friendly way by using incinerated material, cement, water glass and water-soluble resin. A method for manufacturing moldings for artificial fish reef comprises: a first step of preparing 30-40wt% of incinerated material, 20-30wt% of paper sludge, 20-30wt% of cement, 5-10wt% of water glass, 5-10wt% of water-soluble resin, 1-5wt% of reinforcing fiber and 9-15wt% of water; a second step of mixing all the materials and stirring them for 10-20 minutes; and a third step of molding the mixture in an extruder or a pressing molder. | ||||||
| 25 | 포장용 콘크리트 | KR1020040046175 | 2004-06-21 | KR1020040111201A | 2004-12-31 | 테르우지클라우디오 |
| PURPOSE: The concrete for pavement is provided to have excellent drainage efficiency for promoting the safe driving in a rainfall, a sleet day, etc. CONSTITUTION: The concrete for pavement is composed of cement, aggregate and an admixture containing water. The cement is 250¯450 kilograms per square meter and the weight ratio of water against the cement is 0.35 and below, the aggregate is composed of even large-scale aggregate(2) obtained by crushing stone, and an admixture(1) contains Alkali Resistance glass yarn(5) woven with continuous filament yarns to form minute stiffeners and wide gaps(4) in admixture(1). | ||||||
| 26 | 직경과 용융점 차이를 갖는 섬유와 분말로 구성된 복합소재폭렬방지재 및 이 폭렬방지재를 이용한 고강도 내화 콘크리트 | KR1020080134286 | 2008-12-26 | KR101008322B1 | 2011-01-13 | 이주호; 박순전; 김정진; 김광기; 문형재; 황인성; 정용; 최진만; 신재경; 김세훈; 최창휴; 김휘찬 |
| 본 발명은 고강도 콘크리트 폭렬현상을 방지할 수 있는 폭렬방지재와 그 이용방법에 관한 것으로서, 더욱 상세하게는 고강도 콘크리트의 폭렬방지효과와 더불어 유동성개선효과를 실현할 수 있도록 직경과 용융점 차이를 갖는 섬유와 분말로 구성한 복합소재의 폭렬방지재와 이 폭렬방지재을 이용한 고강도 내화 콘크리트에 관한 것이다. 본 발명에 따른 복합소재 폭렬방지재는 고강도 콘크리트의 폭렬방지를 위한 폭렬방지재로서, 분말과 섬유가 1:1~3의 용적비로 조성되되, 상기 분말은 직경이 0.10~0.5mm이고 용융점이 110~150℃인 폴리머분말이고, 상기 섬유는 직경이 0.05~0.10mm이면서 길이가 5~25mm이고 용융점이 150~190℃인 제1섬유로 이루어진 단일섬유 또는 직경이 0.05~0.10mm이면서 길이가 5~25mm이고 용융점이 150~190℃인 제1섬유와 직경이 0.01~0.05mm이면서 길이가 5~25mm이고 용융점이 190~250℃인 제2섬유가 혼합된 복합섬유이며, 상기 제1섬유는 폴리프로필렌섬유이고, 상기 제2섬유는 나일론섬유 또는 폴리비닐알코올섬유임을 특징으로 한다. 섬유, 분말, 폭렬, 고강도, 내화, 콘크리트, 유동성 | ||||||
| 27 | 섬유보강투수콘크리트 도로포장재 조성물과 이를 이용한도로포장방법 | KR1020070085116 | 2007-08-23 | KR100838533B1 | 2008-06-17 | 김미순; 최희진; 전철수 |
| A road pavement composition is provided to be superior in field applicability, plastic deformation resistance, driving stability, waterproofing performance, and durability, and to have low construction cost and maintenance cost. A road pavement composition includes a fiber-reinforced porous concrete and a polymer-modified cement slurry for ultra-rapid hardening type cement admixtures. The fiber-reinforced porous concrete is obtained by mixing 16-25wt% of at least one general cement, 50-70wt% of coarse aggregate having a particle size of 10-19 mm, 5-9wt% of fine aggregate, 5-8wt% of geotextile, and 4-8w% of water. The cement slurry is obtained by mixing ultra-rapid type mixed cement, polymers for cement admixtures, and water in a weight ratio of 100:10-15:25-45, and is injected into the fiber-reinforced porous concrete after the fiber-reinforced porous concrete is cast. | ||||||
| 28 | CURABLE POLYMER MIXTURES | PCT/EP2009005993 | 2009-08-19 | WO2010020401A3 | 2010-05-14 | NAGELSDIEK RENE; GOEBELT BERND; PRITSCHINS WOLFGANG; GREEFRATH DOROTHEE; REMME STEPHAN; ESSER ANDREA |
| The invention relates to curable polymer mixtures which comprise at least one oligomer addition product with hydrolyzable silane groups and additional functional groups as the mediator additive, and a curable polymer system having epoxy group-carrying polymers and curing agents, fillers and optionally adjuvants. The invention further relates to corresponding polymer concrete mixtures and to molded bodies produced thereof. | ||||||
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