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 |
|---|---|---|---|---|---|---|
| 101 | Magnetic ceramic for treating water and its production | JP11224895 | 1995-04-01 | JPH08277176A | 1996-10-22 | SUGIMOTO MITSUMASA; MORI HIDEJI |
| PURPOSE: To prepare a magnetic ceramic for treating water expressing excellent effects for treating water and capable of being continuously used for a long time by kneading an ion exchanging material, a magnetic material, a diamagnetic material, an oxdizing material and a reducing material to make a mixture and baking and magnetizing the mixture. CONSTITUTION: This method for producing a magnetic ceramic for treating water is to add a binder to a mixture consisting of an ion exchanging material, a magnetic material, a diamagnetic material, an oxidizing material and a reducing material, knead the mixture, mold the kneaded mixture and bake the molded material at 300-1000°C with time dependently changing temperatures and magnetize the baked material. The magnetic ceramic expresses excellent effects in modifying water and oils, removing scales adhered to pipelines consisting of iron or other metals, deodorizing of water to be treated, and protecting scales from adhering to pipeline and generation of rusty water, etc. COPYRIGHT: (C)1996,JPO | ||||||
| 102 | The preparation of ceramics | JP9545793 | 1993-03-30 | JPH08191B2 | 1996-01-10 | 勝昭 高橋 |
| 103 | Tubular ceramic carrier | JP7198993 | 1993-03-30 | JPH06277059A | 1994-10-04 | OKAMOTO TAKANORI; KASHIHARA TADASHI; KAMIYA YOSHIHIRO; KAWASE MITSUO |
| PURPOSE: To prepare a carrier for the immobilization of microorganisms, exhibiting excellent gas-releasing property and liquid-diffusibflity into the carrier, capable of holding a large amount of immobilized microorganisms and producible at a relatively low cost. CONSTITUTION: A through-hole 2 for passing gas and liquid is formed in a porous ceramic material having a porosity of 40-80% to form a pipe. The through-hole 2 improves the gas-releasability and the liquid diffusibility into the carrier and decreases the dead space unable to keep the microorganisms in immobilized state in the carrier. COPYRIGHT: (C)1994,JPO | ||||||
| 104 | The underlying adjusting material | JP9419292 | 1992-04-14 | JPH0669910B2 | 1994-09-07 | 克 丸山 |
| 105 | Production of rigid carbon film coated member | JP1295393 | 1993-01-28 | JPH06220637A | 1994-08-09 | SUZUKI MIZUAKI; KISHI MATSUO; TAKAHASHI YUKITSUGU; TSUNEYOSHI JUN |
| PURPOSE: To produce the rigid carbon coated member excellent in hardness and adhesion by introducing a specified gaseous material into a vacuum vessel to form a rigid carbon film on the surface of the intermediate layer formed on a base material. CONSTITUTION: The base material to be coated 4 is disposed in the vacuum vessel 1 provided with an evacuating device. Gaseous nitrogen is introduced from a gas introducing pipe 6 and gaseous silane is introduced from a gas introducing pipe 7 into the vacuum vessel 1, and an intermediate layer is formed on the surface of the base material 4 by an electron cyclotron resonance plasma CVD method using these gases. Then, the vacuum vessel is exhausted, and gaseous methane and gaseous hydrogen are introduced from the gas introducing pipe 6 into the vacuum vessel 1 without taking out the base material to the atmosphere, and the rigid carbon film is formed on the surface of the intermediate layer formed on the base material 4 by the electron cyclotron resonance plasma CVD method. In this way, the cutting tools long in lifetime and excellent in cutting property can be produced. COPYRIGHT: (C)1994,JPO&Japio | ||||||
| 106 | Composition for decreasing earthing resistance | JP20716392 | 1992-07-10 | JPH06163134A | 1994-06-10 | MURAKI SHIGEHARU; BABA YOSHIHIRO; FUKUSHIMA KOICHI; AMANO TOKIMOTO; TANIGAWA SHIN |
| PURPOSE: To provide an earthing resistance decreasing agent with improved durability by decreasing the dissolution and the loss of a composition by decreas ing the water transmissive property of gypsum hardened body and preventing rain water and underground water from penetrating. CONSTITUTION: The composition is a composition consisting of calcined gypsum, a conductive material, a water-soluble aluminum compound, and an alkaline earth metal oxide or hydroxide. Being used, the composition shows excellent effects that the durability of the gypsum hardened body is remarkably improved, the earthing resistance decreasing effect is kept for a long duration, the work efficiency is improved, and the durability of the hardened decreasing agent is improved. COPYRIGHT: (C)1994,JPO&Japio | ||||||
| 107 | Ground regulating material | JP9419292 | 1992-04-14 | JPH05294757A | 1993-11-09 | MARUYAMA KATSU |
| PURPOSE: To smoothly finish the surface by constituting the ground regulating material so that both expansion coefficient for expanding the same until being hardened and shrinkage factor based on hardening are nearly equally set, coating the surface having recessed parts with the ground regulating material and hardening it. CONSTITUTION: A mixture A is obtained by blending about 1 part wt. A1 powder with 100 pts.wt. (hereinafter shown in part) white wash. A mixture B is obtained by blending about 10 parts cement with 1 part mixture A. On the other hand, mixed liquid C is obtained by mixing about 1 part water with 1 part mixing liquid such as an acrylic polymer having prescribed concentration. Furthermore the ground regulating material 3 is obtained by mixing about 4 parts mixed liquid C with 11 parts mixture B. Then, after dirt on the wall surface 1 of concrete is removed to regulate the ground, the ground regulating material 3 is filled into recesses 2 by a metallic trowel or the like and coating is finished to smoothen the whole surface. Thereafter, in the case of drying the ground regulating material 3, since the shrunk rate and foamed rate are nearly equally set at a time for drying the parts filled in the recessed parts 2, even the parts of the recessed parts 2 are not recessed. The smoothly finished face is formed and the excellent appearance is obtained. COPYRIGHT: (C)1993,JPO&Japio | ||||||
| 108 | Formation of thin silicon carbide film | JP9727392 | 1992-03-24 | JPH05271947A | 1993-10-19 | Toru Inoue; Shoji Miyanaga; Hisashi Otani; Shinya Sumino; 亨 井上; 久 大谷; 昭治 宮永; 真也 角野 |
| PURPOSE: To form an amorphous or crystalline thin silicon carbide film having high film quality by plasma CVD at a low temp. and a high rate by using a halogen compd. of carbon and a halogen compd. of silicon as gaseous starting materials. CONSTITUTION: A halogen compd. of carbon as a carbon source and a halogen compd. of silicon as a silicon source are used as gaseous starting materials and a thin silicon carbide film is formed by a chemical vapor growth method with plasma. The halogen element of each of the halogen compds. is preferably fluorine, chlorine, bromine or iodine, CH 3 is preferably used as the carbon source and gas of a halogen element such as fluorine, chlorine or bromine is preferably added at the time of film formation. COPYRIGHT: (C)1993,JPO&Japio | ||||||
| 109 | Ceramic parts formed with bar code and its production | JP1615092 | 1992-01-31 | JPH05208881A | 1993-08-20 | IGARASHI NOBORU; SHIMAI SHUNZO; TSURUGA JUNYA; NAGASAKA SACHIYUKI; NAITO YOSHIYUKI |
| PURPOSE:To obtain a ceramic part with a heat and acid-resistant bar code. CONSTITUTION:A sintered ceramic 1 is applied with an inorganic colorant at a part on one side surface thereof and the colorant is molten and diffused in the ceramic in a depth of 5 to 100mum so that the surface part has different crystalline structure from the basic material. | ||||||
| 110 | Roller for tape traveling and its production | JP33134491 | 1991-11-19 | JPH05140730A | 1993-06-08 | ODA KAZUHIKO; OHARA HISANORI; YOSHIOKA TAKESHI; KAWAI HIROSHI |
| PURPOSE: To improve the adhesion of a hard carbon layer and to improve productivity by providing a silicon intermediate layer on the surface of a roller base material and forming the hard carbon layer thereon. CONSTITUTION: Many rollers 3 are cantilever-supported to a disk shaped substrate holder 2 in the upper part in a vacuum chamber 1 and a revolving shaft 8 is revolved by a motor 7 for revolving a substrate. A silicon evaporating source 4 in the lower part of the vacuum chamber 1 is heated by an electron beam and silicon vapor is risen, by which the revolving rollers are uniformly coated with the silicon. A rare gas, such as gaseous argon, is introduced through a gas inlet 10 into the vacuum chamber 1 and, therefore, the surface of the rollers 3 are activated by the collision of the argon ions and the adhesion of the silicon vapor is additionally improved. COPYRIGHT: (C)1993,JPO&Japio | ||||||
| 111 | Method for producing reinforced concrete of preventing occurrence of gap at contact part between concrete and reinforcing bar | JP21387391 | 1991-08-26 | JPH05117002A | 1993-05-14 | HANAOKA TADAO; KUBOTA TAKASHI; HANAOKA HIROE |
| PURPOSE: To prevent occurrence of gaps between concrete and reinforcing bars by adding a milky dispersion formed from aqueous solution of sodium silicate, copper sulfate, calcium chloride and chromium alum to freshly mixed concrete and placing it. CONSTITUTION: Aqueous solutions of sodium silicate, copper sulfate and calcium chloride are blended and formed precipitate is finely dispersed. The dispersion is mixed with an aqueous solution of chromium alum and a dispersant on the market (e.g. Neopelex(R)) and blended with a colloidal fine powder machine to give a light green emulsifying agent. On the other hand, cement is mixed with sand and gravel in a dry state and kneaded with the emulsifying agent and water. This freshly mixed concrete is poured into a reinforcing bar integrated space in a mold of frame, set and hardened. COPYRIGHT: (C)1993,JPO&Japio | ||||||
| 112 | CEMENTITIOUS ARTICLE COMPRISING HYDROPHOBIC FINISH | PCT/US2014024207 | 2014-03-12 | WO2014150781A2 | 2014-09-25 | DUBEY ASHISH; PENG YANFEI |
| Disclosed are cementitious articles with hydrophobic finish. In some embodiments, the article is a waterproof gypsum panel that is surface reinforced with inorganic mineral fibers that face a flexible and hydrophobic cementitious finish possessing beneficial waterproofing properties. The waterproof gypsum panels of the invention are useful in many applications, such as, for example, tilebacker board in wet or dry areas of buildings, exterior weather barrier panel for use as exterior sheathing, and roof cover board having superior water durability and extremely low surface absorption. The flexible and hydrophobic cementitious finish of the invention can include Class C fly ash, film-forming polymer, silane compound (e.g., alkyl alkoxysilane), and other optional additives. | ||||||
| 113 | PLASMA GASIFICATION REACTORS WITH MODIFIED CARBON BEDS AND REDUCED COKE REQUIREMENTS | PCT/US2012020361 | 2012-01-05 | WO2013036281A3 | 2013-07-04 | SANTOIANNI JAMES; VAN NIEROP PIETER; HEIER MICHAEL ERSKINE; GORODETSKY ALEKSANDR; REESE STEPHANIE; HICKS KENT OLIS |
| 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. | ||||||
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