加工冶金学の英語

陶磁器をマイクロ波によって加熱し、陶磁器から遠赤外線、赤外線波長の放射に転換し、熱効率を上げて調理及び化学反応、化学合成、金属加工、金属結晶、金属の燒結、冶金を行う技術開発。例文帳に追加

TECHNOLOGICAL DEVELOPMENT FOR CARRYING OUT COOKING AND CHEMICAL REACTION, CHEMICAL SYNTHESIS, METAL WORKING, METAL CRYSTALLIZATION, METAL SINTERING AND METALLURGY BY HEATING POTTERY WITH MICROWAVE FOR CONVERTING INTO FAR INFRARED OR INFRARED WAVE RADIATION AND IMPROVING HEAT EFFICIENCY - 特許庁

粉末冶金の手法により製造した、多孔質の金属焼結体の空孔部分へ流動しやすく加工した塗料、培地、有機、無機の化学品、天然抽出物等を浸漬、浸透、真空などの手法で含浸させる。例文帳に追加

A substance (e.g. a coating material, a culture medium, an organic or inorganic chemical, or a natural extract) having been made easily flowable is impregnated by a technique such as immersion, permeation, or vacuum into the pores of a porous metal-sintered compact made by a powder-metallurgical technique. - 特許庁

本発明は、粉末冶金学的手法による焼結磁石やボンド磁石による加工が困難な厚さ領域５０〜１６００μｍの希土類−鉄系中空厚膜磁石の製造方法、ならびにこれを用いた磁石モータを提供する。例文帳に追加

To provide a method of manufacturing a rare earth iron based hollow thick film magnet which is 50 to 1,600 μm in thickness and hard to work through a powder metallurgical technique through which a sintered magnet or a bonded magnet is formed, and to provide a magnetic motor using the same. - 特許庁

本発明は、粉末冶金学的手法による焼結磁石やボンド磁石による加工が困難な厚さ領域、１０〜３００μｍの希土類厚膜磁石の製造方法、ならびにこれを用いたミリメートルサイズの磁石モータを提供するものである。例文帳に追加

To provide a method of manufacturing a rare earth thick film magnet which is 10 to 200 μm in thickness and hard to work through a powder metallurgical technique through which a sintered magnet or a bonded magnet is formed, and to provide a magnet motor which is made of the above magnet is a millimeter size. - 特許庁