Abstract
The paper described the FY 1993 results of the technology to create high efficiency power generation use members. A processing method was proposed in which to manifest magnetic characteristics up to the theoretical value level, crystallization of magnetic alloy amorphous was controlled and size/configuration of precipitated micro-fine crystals are made ideal. For the development of environmental purification use high functional catalysts, experiments were conducted on the heightening of purity of materials. Namely, by the two wavelength two stage excitation method using color laser, atomic beams of the material metal emitted by electronic beam evaporating source are photo-excited up near the ionization level. These are separated from the non-ionized components by electrostatic field application, and only the ionized atoms are vapor-deposited on substrate. The separation accuracy was good. Plasma excitation of raw gas was done independently for every component, and the multi-source excitation plasma CVD was proposed which is film-formed on the substrate of which the periphery was separately controlled. The synthesis method was considered of higher-order structure control high functional organic materials which are composed of electrode reaction/high grade photon/extreme magnetic field. Study was made of complex reaction field application film-forming/molecular orientation technology using a small test device. (NEDO)
Citation Formats
None.
FY 1993 report on the results of the R and D of advanced function creation processing technology. Development of technology to create high efficiency power generation use members; 1993 nendo senshin kino soshutsu kako gijutsu no kenkyu kaihatsu seika hokokusho. Kokoritsu hatsuden'yo buzai sosei gijutsu kaihatsu.
Japan: N. p.,
1994.
Web.
None.
FY 1993 report on the results of the R and D of advanced function creation processing technology. Development of technology to create high efficiency power generation use members; 1993 nendo senshin kino soshutsu kako gijutsu no kenkyu kaihatsu seika hokokusho. Kokoritsu hatsuden'yo buzai sosei gijutsu kaihatsu.
Japan.
None.
1994.
"FY 1993 report on the results of the R and D of advanced function creation processing technology. Development of technology to create high efficiency power generation use members; 1993 nendo senshin kino soshutsu kako gijutsu no kenkyu kaihatsu seika hokokusho. Kokoritsu hatsuden'yo buzai sosei gijutsu kaihatsu."
Japan.
@misc{etde_20145124,
title = {FY 1993 report on the results of the R and D of advanced function creation processing technology. Development of technology to create high efficiency power generation use members; 1993 nendo senshin kino soshutsu kako gijutsu no kenkyu kaihatsu seika hokokusho. Kokoritsu hatsuden'yo buzai sosei gijutsu kaihatsu}
author = {None}
abstractNote = {The paper described the FY 1993 results of the technology to create high efficiency power generation use members. A processing method was proposed in which to manifest magnetic characteristics up to the theoretical value level, crystallization of magnetic alloy amorphous was controlled and size/configuration of precipitated micro-fine crystals are made ideal. For the development of environmental purification use high functional catalysts, experiments were conducted on the heightening of purity of materials. Namely, by the two wavelength two stage excitation method using color laser, atomic beams of the material metal emitted by electronic beam evaporating source are photo-excited up near the ionization level. These are separated from the non-ionized components by electrostatic field application, and only the ionized atoms are vapor-deposited on substrate. The separation accuracy was good. Plasma excitation of raw gas was done independently for every component, and the multi-source excitation plasma CVD was proposed which is film-formed on the substrate of which the periphery was separately controlled. The synthesis method was considered of higher-order structure control high functional organic materials which are composed of electrode reaction/high grade photon/extreme magnetic field. Study was made of complex reaction field application film-forming/molecular orientation technology using a small test device. (NEDO)}
place = {Japan}
year = {1994}
month = {Mar}
}
title = {FY 1993 report on the results of the R and D of advanced function creation processing technology. Development of technology to create high efficiency power generation use members; 1993 nendo senshin kino soshutsu kako gijutsu no kenkyu kaihatsu seika hokokusho. Kokoritsu hatsuden'yo buzai sosei gijutsu kaihatsu}
author = {None}
abstractNote = {The paper described the FY 1993 results of the technology to create high efficiency power generation use members. A processing method was proposed in which to manifest magnetic characteristics up to the theoretical value level, crystallization of magnetic alloy amorphous was controlled and size/configuration of precipitated micro-fine crystals are made ideal. For the development of environmental purification use high functional catalysts, experiments were conducted on the heightening of purity of materials. Namely, by the two wavelength two stage excitation method using color laser, atomic beams of the material metal emitted by electronic beam evaporating source are photo-excited up near the ionization level. These are separated from the non-ionized components by electrostatic field application, and only the ionized atoms are vapor-deposited on substrate. The separation accuracy was good. Plasma excitation of raw gas was done independently for every component, and the multi-source excitation plasma CVD was proposed which is film-formed on the substrate of which the periphery was separately controlled. The synthesis method was considered of higher-order structure control high functional organic materials which are composed of electrode reaction/high grade photon/extreme magnetic field. Study was made of complex reaction field application film-forming/molecular orientation technology using a small test device. (NEDO)}
place = {Japan}
year = {1994}
month = {Mar}
}