- C04B2111/00008: .得到或使用纳米相关技术的材料
- C04B2111/00017: .以环境保护相关为特征
- C04B2111/00025: .以保护健康相关为特征的,例如包含有能保护皮肤的特殊成分的材料 (使用无铬VI 或低铬VI 的材料以防止铬疹病入 C04B 2111/1081)
- C04B2111/00034: .混合物的物理-化学特征
- C04B2111/00241: .无规定入别处的材料物理属性入C04B 2111/00
- C04B2111/00431: .耐火材料
- C04B2111/00439: .无规定入别处的材料的物理化学性能入C04B2111/00
- C04B2111/00474: .无规定入别处的应用入 C04B2111/00
- C04B2111/10: .以不含某特定材料或某材料含量很低时为特征的组合物或成分
- C04B2111/20: .抗化学、物理或生物侵蚀
- C04B2111/30: .可钉或可锯材料
- C04B2111/32: .向内膨胀材料
- C04B2111/34: .无收缩或无破裂的材料
- C04B2111/40: .多孔或轻质材料
- C04B2111/50: .挠性或弹性材料
- C04B2111/52: .隔声材料
- C04B2111/54: .天然石的代用品,例如人造大理石
- C04B2111/56: .适于制造管的组成,例如离心浇注,或涂覆混凝土管
- C04B2111/60: .地板材料
- C04B2111/70: .灌浆
- C04B2111/72: .用于修补建筑或建筑材料的组成
- C04B2111/74: .水下应用
- C04B2111/76: .应用于非正常温度下,如零下温度
- C04B2111/80: .光学性质,例如透明的或反射的
- C04B2111/90: .电学性质
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | Synthetic gasket material | US09584262 | 2000-05-31 | US06338754B1 | 2002-01-15 | Randy S. Cannon; Kevin G. Graham |
| A synthetic gasket material and the method for make such is described. This invention is specifically adapted for use in high-pressure, high-temperature presses. This material is made from a compacted, granulated and dried mixture of talc, garnet, and sodium silicate. This composition provides an alternative to the use of natural pyrophyllite as the material for gasket components, thereby reducing the cost of the materials. This composition can be pressed to net or near net geometry, thereby generating less waste. Moreover, this composition provides more consistency for the gasket components. Furthermore, this material has improved thermal insulator properties, thereby leading to lower power consumption used in the high-pressure, high-temperature presses. | ||||||
| 2 | SYSTEM, METHOD AND APPARATUS FOR CONTROLLING GROUND OR CONCRETE TEMPERATURE | US13903160 | 2013-05-28 | US20140353864A1 | 2014-12-04 | Chester Grochoski |
| A system, method and apparatus is described for achieving and maintaining concrete temperature during curing in order to improve the compressive strength of the finished concrete. A model to predict ambient conditions during a concrete pour is used to design an equipment layout scheme. A heating apparatus and a control system operate within the system to control concrete curing temperature. The system, method and apparatus are particularly useful for designing concrete pours of elevated slabs because the equipment layout is recommended based on the location of heat sinks such as I-beams, columns and rebar, etc. within a concrete slab. The system, method and apparatus are also useful for ground thawing projects. | ||||||
| 3 | Composition for coating concrete | JP41832190 | 1990-12-27 | JPH04209203A | 1992-07-30 | YURI MARUGURISU; ABURAHAMU RABI |
| PURPOSE: To achieve resistance against mechanical stress resistance in asphalt and to prevent aging by coating concrete asphalt with a composition where a monomer or a monomer mixture, bitumen, an inert mineral filler, water, a curing agent for monomer, and a UV protective agent are blended. CONSTITUTION: Bitumen, a fine inert mineral filler, and a monomer such as methyl methacrylate or a monomer mixture are blended. Then, a composition is formed, where dimethylaniline, oleic acid, phenol, and water are mixed to the mixture. Then, the composition is coated to porous concrete asphalt, thus obtaining the asphalt that has resistance against mechanical stress and whose aging is prevented. COPYRIGHT: (C)1992,JPO | ||||||
| 4 | Composition for coating concrete | EP90125217.1 | 1990-12-21 | EP0435213A3 | 1991-10-30 | Margulis, Yuri; Lavy, Avraham |
A composition for application to concrete asphalt surface, such as highways, airfield landing strips and the like. The composition penetrates to a certain depth into the surface and results in an improved resistance to mechanical stresses and abrasion as well as against deterioration due to solar radiation. The impregnation with the novel composition also prevents to a large extent water penetration The main ingredients of the compositions are bitumen or an equivalent, a polymerizable monomer or monomer mixture, an inert mineral filler, water and a curing agent for the monomer. It is advantageous to add a U.V. protective agent to enhance resistance to deterioration due to solar radiation. |
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| 5 | Composition for coating concrete | EP90125217.1 | 1990-12-21 | EP0435213A2 | 1991-07-03 | Margulis, Yuri; Lavy, Avraham |
A composition for application to concrete asphalt surface, such as highways, airfield landing strips and the like. The composition penetrates to a certain depth into the surface and results in an improved resistance to mechanical stresses and abrasion as well as against deterioration due to solar radiation. The impregnation with the novel composition also prevents to a large extent water penetration The main ingredients of the compositions are bitumen or an equivalent, a polymerizable monomer or monomer mixture, an inert mineral filler, water and a curing agent for the monomer. It is advantageous to add a U.V. protective agent to enhance resistance to deterioration due to solar radiation. |
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| 6 | Composition for coating concrete | EP90125217.1 | 1990-12-21 | EP0435213B1 | 1996-10-30 | Margulis, Yuri; Lavy, Avraham |
| 7 | Verfahren zur Herstellung und Förderung einer wässrigen Kieselsäuresuspension | EP91120096.2 | 1991-11-26 | EP0492146A1 | 1992-07-01 | Deuse, Thomas; Simon, Edgar |
Eine Spritzbetonschicht oder ein Transportbeton wird hergestellt, indem man als Anmachwasser eine wässrige Suspension einer synthetisch hergestellten Kieselsäure beispielsweise einer gefällten Kieselsäure verwendet. |
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