141 |
炭素材料及びその製造方法 |
JP2014207968 |
2014-10-09 |
JP5937653B2 |
2016-06-22 |
村松 一生; 豊田 昌宏 |
|
142 |
炭素材料及びその製造方法 |
JP2014207968 |
2014-10-09 |
JP2015044737A |
2015-03-12 |
MURAMATSU KAZUO; TOYODA MASAHIRO |
【課題】リチウムイオン電池,ハイブリッドキャパシターなどの電極材料などとして有用な,薄片状黒鉛結晶塊など及びそれらの効率的で生産性が高い製造方法などを提供する。【解決手段】残留水素を含むように仮焼きした有機化合物の粉粒体を,黒鉛製の容器に密閉し,所定の条件下,該容器ごと加圧された雰囲気を使用した熱間静水圧加圧処理(HIP処理)することなどによる,内側から外方へと延びた薄片状の黒鉛結晶が集合してなる薄片状黒鉛結晶塊などの製造方法。【選択図】図15 |
143 |
炭素材料及びその製造方法 |
JP2012500663 |
2011-02-18 |
JP5632448B2 |
2014-11-26 |
一生 村松; 豊田 昌宏; 昌宏 豊田 |
|
144 |
Insulation products, especially thermal insulation product and a method of manufacturing the same |
JP2004520745 |
2003-07-09 |
JP5019409B2 |
2012-09-05 |
エスピアール、フィリップ; マイユーゼ、ブルノ |
The invention relates to a thermal and/or acoustic insulation product based on mineral fibers for use above 150° C., especially between 200 and 500° C., or even up to 700° C. and higher in the case of rock fibers, which comprises at least 1%, or at least 2% and even more than 4% by weight of binder obtained from a sizing composition, the resin or resin mixture of which consists substantially of at least one epoxy-type resin whose EEW value is between 150 and 2000, preferably at least 160 and/or at most 700, or even at least 170 and/or at most 300. |
145 |
Weight mortar |
JP2001131021 |
2001-04-27 |
JP4861565B2 |
2012-01-25 |
隆司 佐久間; 直樹 山下; 徹 鍛 |
|
146 |
Production method of building boards based on barium sulfate - calcium sulfate |
JP2010527471 |
2008-10-06 |
JP2010540292A |
2010-12-24 |
クレーマー、ゲオルク; グレブナー、ゴスベルト; シェラー、ローター; フォーゲル、ペトラ; フンメル、ハンス−ウルリッヒ |
Method for producing a radiation protection plate based on cement, having the following steps: provision of cement plaster having a grain size d50 between 30 and 50 µm, in powder form and capable of binding; provision of barium sulfate in powder form, having a grain size d50 between 5 and 15 µm; mixing the cement plaster in powder form and the barium sulfate in powder form; mixing the powder mixture with water to achieve a water-solid ratio (w/w) of 0.50 to 0.60; forming of a cement slab on a conventional cement slab production system. |
147 |
Concrete crushing slurry manufacturing equipment and grinding kneading machine |
JP2000327328 |
2000-10-26 |
JP4592918B2 |
2010-12-08 |
正郎 小西; 容昭 岩本 |
|
148 |
低放射化水硬性組成物、低放射化セメント、及びそれら製造方法 |
JP2009505267 |
2008-03-17 |
JPWO2008114877A1 |
2010-07-08 |
森泰一郎; 吉野亮悦; 樋口隆行 |
放射線遮蔽性能を有する低放射化セメントコンクリート構造物を提供することを課題とする。カルシウムアルミノシリケートの化学組成が、CaO、Al2O3、SiO2、MgO、及びZrO2の合計中、CaOが25〜55部、Al2O3が16〜45部、SiO2が23〜40部、MgOが0〜1部、ZrO2が0〜4部であり、カルシウムアルミノシリケート中、Eu含有量が0.3mg/kg未満、Co含有量が15mg/kg未満である低放射化水硬性組成物及びその製造方法である。カルシウムアルミナシリケートのガラス化率が70%以上であり、遊離酸化カルシウムの含有量がカルシウムアルミネートシリケート中0〜2部未満であることが好ましい。石膏やセメントを含有しても良い。 |
149 |
Composition, cured product, the production method of the concrete cask, and the cured body |
JP2003024209 |
2003-01-31 |
JP4369135B2 |
2009-11-18 |
純 下条; 英司 大脇; 礼子 岡本; 豊 杉原; 廣明 谷内 |
|
150 |
Powdered materials and ceramic materials produced therefrom |
JP2003543549 |
2002-08-21 |
JP4355209B2 |
2009-10-28 |
アンフェルト,ニルス−オット; エンクヴィスト,ハカン; クラフト,ラーズ; ゴメス−オルテガ,グニラ; ハーマンソン,イルメリ; ハーマンソン,レイフ |
|
151 |
Weight grout mortar material, and filling construction method of weight grout mortar using the same |
JP2000287998 |
2000-09-22 |
JP3426201B2 |
2003-07-14 |
敏雄 加藤; 哲雄 大塚; 昌俊 山崎; 潤 石田 |
|
152 |
Material and method for fixing radioactivchlorine |
JP2000324447 |
2000-10-24 |
JP2002131482A |
2002-05-09 |
MIKURA MICHITAKA; MURATA EIICHI; KANEKO MASAAKI; TAKAHASHI RIYOUTA; NAKAJIMA ATSUSHI |
PROBLEM TO BE SOLVED: To provide a material and a method for fixing radioactivchlorine which adsorb a lot of it and can fix chlorine stably. SOLUTION: This solidifying material of radioactivchlorine includes alumina cement of 15 to 17 wt.% and the remaining is made of a calcium compound. The alumina cement is made of at least one selected from the first, second, third, fourth and fifth categories in the Japan Industrial Standards(JIS). The calcium compound is composed of at least one selected from calcium hydroxide, (Ca(OH)2), calcium oxide(CaO), calcium carbonate(CaCO3), calcium sulfate(CaSo4), calcium sulfite(CaSO3) and calcium nitrate(Ca(No3)2). |
153 |
SiC coated C / C composites |
JP35127291 |
1991-12-13 |
JP3120884B2 |
2000-12-25 |
四郎 保立; 茂男 加藤; 弘明 小池; 拓 山崎; 春男 田添; 照夫 菅井 |
|
154 |
Ceramic material and a method of manufacturing the same excellent liquid sodium corrosive |
JP15114095 |
1995-05-26 |
JP2988851B2 |
1999-12-13 |
HAYASHI KAZUNORI; NOSE TETSUO; NAKAYAMA HIDEMI; KANO SHIGEKI; TATE YOSHIAKI; SAITO JUNICHI |
|
155 |
Boron carbide coated carbon material, its production and material confronting plasma |
JP10294496 |
1996-04-24 |
JPH09286679A |
1997-11-04 |
SUZUKI TAKAYUKI; KIKUCHI YOSHIHIRO; HYAKKI YASUO |
PROBLEM TO BE SOLVED: To obtain a B4 C coated carbon material capable of preventing the electrification of the surface and useful as a material of a nuclear fusion reactor confronting plasma by converting the surface of a carbon material into B4 C and filling a specified substance into the voids in the resultant B4 C layer. SOLUTION: The surface of a carbon material such as a carbon fiber-carbon composite material having 55vol% fiber content obtd. by impregnating petroleum pitch into carbon fibers derived from pitch and carrying out firing and graphitization is converted into B4 C by reaction with a boron compd. such as B2 O3 and then carbon is filled into the voids in the resultant B4 C layer by filling an org. substance such as resol type phenolic resin into the voids and carbonizing it. |
156 |
Solidification method of radioactive waste |
JP5661087 |
1987-03-13 |
JPH0760198B2 |
1995-06-28 |
俊介 内田; 耕一 千野; 修 栗山; 清美 船橋; 恂 菊池; 務 馬場 |
|
157 |
Composite carbon member and production thereof |
JP6839793 |
1993-03-26 |
JPH06279154A |
1994-10-04 |
OKAMURA HISANOBU; AKIYAMA HIROSHI; SAKAMOTO MASAHIKO; SHIGENAKA AKIRA |
PURPOSE:To highly strengthen a carbon member itself having voids facing one direction such as a carbon fiber reinforced carbon composite material and to improve the reliability of a composite body joined to a member different in thermal expansion coefficient such as a metal. CONSTITUTION:The composite carbon member is provided with a carbon member 1 having the voids 2 facing one direction and a metallic carbide layer 4 provided on the surface of at least one face intersecting the direction of the voids of the carbon member 1 almost at right angle and the inside face of the voids. A part between the voids is reinforced by impregnating the part between the voids with a composition containing an element forming a carbide by allowing to react with carbon. The carbon member is joined to the member different in thermal expansion coefficient such as the metallic member with a metallic plate having the property <=12X10<3>kgf/mm<2> in foungs modulus. |
158 |
Method of solidifying industrial waste and solidified body |
JP5661087 |
1987-03-13 |
JPS63223597A |
1988-09-19 |
FUNABASHI KIYOMI; CHINO KOICHI; KURIYAMA OSAMU; BABA TSUTOMU; UCHIDA SHUNSUKE; KIKUCHI JUN |
|
159 |
Manufacture of solid substance containing proper cement for finally storing water containing thorium |
JP31637787 |
1987-12-16 |
JPS63167296A |
1988-07-11 |
BUIRUFURIITO KUNTSU; BUINFURIITO GURAMATSUTE; RORUFU EAHARUTO SHIYUMITSUTO; UDO POORU |
|
160 |
Radioactive waste vessel |
JP14240383 |
1983-08-05 |
JPS6035298A |
1985-02-23 |
IGARI YOSHIMASA; YAMAMOTO YOUICHI; MOTOHASHI HISAHIKO; NISHIDA TADAICHIROU |
|