81 |
Method for protecting stone material, marble, brick and concrete from atmospheric agent and pollutant and method for protecting stone surface from decay caused by mural writing with paint, ink or the like |
JP18192288 |
1988-07-22 |
JPH01111785A |
1989-04-28 |
FURANKO PIACHIENTEI; KARURO MANGANERURI DERU FUA; JIYOBANNI MOTSUJI; ADORUFUO PASETSUTEI; ANDOREA SUKARA |
PURPOSE: To impart an excellent protection to both of a low degree or middle degree porous material or a high degree porous material by mixing polytetrafluoroethylene, a neutral perfluoropolyether and a functionalized perfluoropolyether.
CONSTITUTION: The material such as stone, marble, brick and concrete and a structure composed of these materials is protected from a chemical in the atmosphere and an air pollutant by applying a protecting agent consisting of a mixture of 1-3 components described hereunder on its surface. (1) A fine powder of the polytetrafluoroethylene or a tetrafluoroethylene copolymer containing less than 12% other perfluorinated monomer, (2) a perfluoropolyether having no functional group, and/or (3) the perfluoropolyether or fluoropolyether having a group constituted by a functional group capable of forming a chemical and/or physical bond with the material to be protected at one end or both ends of a chain, or a product obtained by subjecting above described functionalized perfluoropolyether or fluoropolyether to condensation polymerization or ethylenical polymerization.
COPYRIGHT: (C)1989,JPO |
82 |
Mixture for manufacturing chemically resistant concrete |
JP7130587 |
1987-03-25 |
JPS63236746A |
1988-10-03 |
EFUGENII ANDOREEEUITSUCHI GUZE; IWAN EGOROUITSUCHI PURUYAEFU; ANATORII NIKORAEUITSUCHI PIMEN; URAJIMIIRU MIHAIROUITSUCHI BOR; URAJIMIIRU AFUTONOMOUITSUCHI O; WARERII SUTEPANOUITSUCHI RADEY; AREKUSEI MIHAIROUITSUCHI ASUTA; RIDEIA PANTEREIMONOFUNA KURASO; WARERII GURIGORIEUITSUCHI SHIY; NIINA PIYOOTOROFUNA REDONEBA; IGOORU FUIYOODOROUITSUCHI RUDE |
|
83 |
Fixed product of hydrous waste and cement and manufacture thereof |
JP18721484 |
1984-09-06 |
JPS6073500A |
1985-04-25 |
PEETAA FUAIMERUKA; UORUFUGANGU KURUUGAA; RAINAA KESUTAA; UORUFUGANGU HAUZAA |
|
84 |
폐주물사를 이용한 고강도 자동 수평 모르타르 |
KR1020030029749 |
2003-05-12 |
KR1020040097450A |
2004-11-18 |
박의신; 권평곤 |
PURPOSE: Provided is a high strength self-leveling mortar having characteristics of heat storage and no cracking by mixing cement composition(charcoal, fly ash and cement) with waste foundry sand. CONSTITUTION: The self-leveling mortar consists of 100pts.wt. of cement composition, 30-100pts.wt. of waste foundry sand, and optionally 0.1-2.5pts.wt.(based on 100pts.wt. of cement composition) of fluidifying agent based on naphthalene, wherein the cement composition comprises 30-79wt.% of portland cement and fly ash, as main materials, having a CaO/Al2O3 of 1:1 - 6:1, 20-60wt.% of charcoal, 1-10wt.% of alum to accelerate hardening and to improve strength. |
85 |
수맥 차단 합성수지체 |
KR1020020026298 |
2002-05-13 |
KR1020030088620A |
2003-11-20 |
심범만 |
PURPOSE: A synthetic resin body is provided to interrupt harmful water veins in an apartment room, a house or an office permanently. CONSTITUTION: The synthetic resin body for interrupting water veins is produced by mixing germanium ore with pozzolan ore and introducing the mixed ores into a polyvinyl chloride synthetic resin body. |
86 |
정전기 분산용 테라죠 |
KR1020020000170 |
2002-01-03 |
KR1020030059588A |
2003-07-10 |
안상욱; 박동철; 이영진; 황재현; 박재범 |
PURPOSE: Provided is a production method of an inorganic-based terrazzo excellent in dispersion of static electricity, durability and nonflammability by adding carbon fibers and fiber dispersant to conventional terrazzo composition. CONSTITUTION: The terrazzo composition comprises inorganic main materials such as white cement, crushed stone(2-15mm) and marble chip, and 0.05-0.30pts.wt. of pitch and PAN-based carbon fibers with a length of 1-10mm, and 0.1-0.3pts.wt. of fiber dispersant such as hexanediol and neopentyl glycol. The resultant terrazzo has 2.5x10¬4 - 1.0-10¬6ohm of surface-surface resistance and surface-ground resistance. |
87 |
황토와 제올라이트를 주재로 한 인조대리석 및 그 제조방법 |
KR1019980021639 |
1998-06-11 |
KR100272421B1 |
2000-12-01 |
권영수 |
본 발명은 황토와 제올라이트를 주재로한 인조대리석 및 그 제조방법에 관한 것으로 특히 가정용 욕조나 싱크대 상판, 또는 욕실 세면대 등을 불포화 폴리에스테르 수지 액으로 조성할 때 그 충진제를 황토와 제올라이트로 함으로서 윈적외선이 방사되고 항균, 탈취, 양이온 치환 능력을 갖는 욕조, 싱크대 상판 또는 세면대 등을 제공할 수 있게 한 것이다. |
88 |
炭酸鉄吸収剤を用いた硫黄の除去 |
JP2013195224 |
2013-09-20 |
JP5844784B2 |
2016-01-20 |
ファルハ,フロイド |
|
89 |
Sulfur removal using iron carbonate absorbent |
JP2013195224 |
2013-09-20 |
JP2014054629A |
2014-03-27 |
FLOYD FARHA |
PROBLEM TO BE SOLVED: To provide a desulfurizing absorbent composition useful for removing a sulfur- containing compound from various fluids, in particular a liquid hydrocarbon, a gaseous hydrocarbon and a carbon dioxide.SOLUTION: Absorbent particles, which are made by mixing a finely powdered iron carbonate, preferably a siderite, in combination with a small amounts of water and a binder, shaping and drying, are used to treat a gaseous and liquid fluid stream (for example, a natural gas, a light hydrocarbon, a crude oil, an acid gas mixture, a carbon dioxide gas and liquid, an anaerobic gas, a landfill gas, a geothermal gas and liquid, and the like) at a temperature of 11.1-54.4°C under a pressure of 1.379-3.447 MPa, and significantly reduce the concentration of sulfurous compounds contained in the stream such as a hydrogen sulfide, a carbonyl sulfide, an organic disulfide, a mercaptan or the like. The absorbent is reproduced by bringing into contact with an air and a vapor at fixed intervals. The absorbent contains 50-95 wt% of iron carbonate, 2-10 wt% of binder and 3 wt% of water. |
90 |
Coating material for the raw material composition |
JP2001381052 |
2001-12-14 |
JP3970012B2 |
2007-09-05 |
宏幸 倉橋; 彰信 安藤; 正明 関 |
|
91 |
High-density porous body and a method of manufacturing the same |
JP6907296 |
1996-02-28 |
JP3610665B2 |
2005-01-19 |
誠 小川; 有理 山田; 憲昭 杉本; 喜章 福嶋; 伸二 稲垣 |
|
92 |
Humidity gypsum board and method of manufacturing the same |
JP18422594 |
1994-06-30 |
JP3524963B2 |
2004-05-10 |
敏史 寺村 |
|
93 |
Raw material composition for coating stuff |
JP2001381052 |
2001-12-14 |
JP2003183067A |
2003-07-03 |
ANDO AKINOBU; SEKI MASAAKI; KURAHASHI HIROYUKI |
<P>PROBLEM TO BE SOLVED: To provide a raw material composition for a coating stuff excellent in coating workability, in which the coating film obtained by kneading with water and coating can adsorb an atmospheric organic solvent, has high strength as well as humidity controllability and heat insulation property, and also can effectively absorb an atmospheric carbon dioxide while desiccating itself. <P>SOLUTION: This raw material composition for the coating stuff includes diatom earth, a hydraulic material, an air setting material and a chemical substance adsorbent. Portland cement is preferable as the hydraulic material, and it is preferable that the air setting material includes at least either one of slaked lime or dolomite plaster, and more preferable that it further includes a photocatalyst. <P>COPYRIGHT: (C)2003,JPO |
94 |
Moisture-adsorbing and releasing inorganic formed body |
JP2001364529 |
2001-11-29 |
JP2003165762A |
2003-06-10 |
KONDO ATSUO |
<P>PROBLEM TO BE SOLVED: To inexpensively manufacture an inorganic formed body having high strength and high moisture-adsorbing and releasing properties. <P>SOLUTION: A composition containing 3-75 wt.% clay, 3-20 wt.% alkali metal hydroxide, 10-60 wt.% reactive aluminosilicate and 10-70 wt.% siliceous substance is formed in a prescribed shape, then the formed body is aged and hardened and also a moisture-adsorbing and releasing porous substrate is formed at the inside. The moisture-adsorbing and releasing porous substance has properties similar to a zeolite substance and gives excellent moisture-adsorbing and releasing properties to the hardened formed body. <P>COPYRIGHT: (C)2003,JPO |
95 |
Rock wool board |
JP430196 |
1996-01-12 |
JP3377355B2 |
2003-02-17 |
政介 塚本; 勝 岸本; 秀実 揖斐; 博之 石川; 宏明 碓氷; 貞男 薮 |
|
96 |
Polyolefin fiber to prevent concrete from explosive cracking and concrete mixed with the same |
JP2000355252 |
2000-11-22 |
JP2002160950A |
2002-06-04 |
YAMASHITA KENJI |
PROBLEM TO BE SOLVED: To prevent shaped concrete products from explosive cracking caused by the volume expansion of steam which is suddenly generated inside at high temperatures in case of fire.
SOLUTION: Polyolefin fiber having an energy of melting ≤150 mJ/mg and the end point of decomposition temperature ≤460°C of 0.05-1.0 vol.% is mixed with concrete.
COPYRIGHT: (C)2002,JPO |
97 |
Non-cement humidity for building materials |
JP12829199 |
1999-05-10 |
JP3276077B2 |
2002-04-22 |
則義 丸山; 和久 依田; 瑞恵 澤田 |
|
98 |
Manufacture of photocatalyst tile and device |
JP7405599 |
1999-03-18 |
JP2000266902A |
2000-09-29 |
BABA TOSHIAKI; KATO HIROMICHI; SHINKAI SEIJI; NISHIYAMA HIDEYUKI; MORI TOSHIKATSU; ONUKI TORU |
PROBLEM TO BE SOLVED: To form a high-activity photocatalyst film having a large film thickness with a high deposition rate on a tile surface. SOLUTION: After a tile 2 is heated in a heating zone 3, TiO2 generated by hydrolysis of TiCl4 vapor is deposited on the tile surface, in a vapor deposition chamber 4 where TiCl4 vapor generated in a TiCl4 vapor generating furnace 5 is introduced, to form a TiO2 film on the tile surface. Air is supplied into the vapor deposition chamber 4 by an air pump 11. As the need arises, a steam generator 15 is operated and steam is added to the air. |
99 |
The preparation of large-scale panel material for environment adjustment |
JP17895192 |
1992-06-12 |
JP3028502B2 |
2000-04-04 |
徹雄 佐藤; 広喜 和美; 昭夫 寒河江; 浩 松本; 浩 笠井; 良延 荒井 |
|
100 |
Photocatalytic tile and its production |
JP7405399 |
1999-03-18 |
JP2000072575A |
2000-03-07 |
BABA TOSHIAKI; SHINKAI SEIJI; KATO HIROMICHI; KINEJIMA TAKESHI; ONUKI TORU; KAMIYA YOSHIO; YASUNAGA MASAYOSHI |
PROBLEM TO BE SOLVED: To produce a photocatalytic tile capable of enhancing photocatalytic effects and prevented from an iris phenomenon due to interference of light by forming a thick photocatalytic film on the tile surface.
SOLUTION: This photocatalytic tile is produced by forming a film having photocatalytic functions on the surface thereof. The thickness of the film is >0.8 μm. A tile 2 is heated in a heating zone 3 and the vapor of TiO2 generated by hydrolyzing a vapor of TiCl4 in a vacuum deposition chamber 4 in which the vapor of the TiCl4 produced in a furnace 5 for producing the vapor of the TiCl4 is introduced is deposited on the tile surface to thereby form a TiO2 film having a greater thickness than 0.8 μm on the tile surface.
COPYRIGHT: (C)2000,JPO |