Abstract
It is indispensible to use fine ceramics under high temperature condition for some parts of equipment of a new electric power generation system aiming at improvement of electric power generation efficiency. However, high-temperature thermophysical properties of ceramics required for design and development of the equipment are unexpectedly unknown. Therefore, high-temperature thermophysical properties of fine ceramics on the market are measured afresh, using the measuring instrument for thermophysical properties of ultra-high-temperature materials which is developed by Central Research Institute of Electric Power Industry and can be used for measurements up to 2000 {degree}C. Then, the characteristic values obtained are databased. Using the above-mentioned instrument, high temperature thermophysical properties of three kinds of fine ceramics on the market are first made clear in the range up to ultra-high temperature. Constructed is database of thermophysical properties of electric power generating materials which can be used on various database management software for personal computers on the market. About 900 data mostly on ceramics and metal materials are now entered mainly as measured values. 13 figs., 9 tabs.
Takahashi, T
[1]
- Central Reserach Institute of Electric Power Industry, Tokyo (Japan)
Citation Formats
Takahashi, T.
Ceramic thermophysical properties and construction of database for high-temperature thermophysical properties for electric power plant; Ceramics no koonnetsubussei to hatsuden{prime}yo koon zairyonetsubussei database no kochiku.
Japan: N. p.,
1991.
Web.
Takahashi, T.
Ceramic thermophysical properties and construction of database for high-temperature thermophysical properties for electric power plant; Ceramics no koonnetsubussei to hatsuden{prime}yo koon zairyonetsubussei database no kochiku.
Japan.
Takahashi, T.
1991.
"Ceramic thermophysical properties and construction of database for high-temperature thermophysical properties for electric power plant; Ceramics no koonnetsubussei to hatsuden{prime}yo koon zairyonetsubussei database no kochiku."
Japan.
@misc{etde_10142192,
title = {Ceramic thermophysical properties and construction of database for high-temperature thermophysical properties for electric power plant; Ceramics no koonnetsubussei to hatsuden{prime}yo koon zairyonetsubussei database no kochiku}
author = {Takahashi, T}
abstractNote = {It is indispensible to use fine ceramics under high temperature condition for some parts of equipment of a new electric power generation system aiming at improvement of electric power generation efficiency. However, high-temperature thermophysical properties of ceramics required for design and development of the equipment are unexpectedly unknown. Therefore, high-temperature thermophysical properties of fine ceramics on the market are measured afresh, using the measuring instrument for thermophysical properties of ultra-high-temperature materials which is developed by Central Research Institute of Electric Power Industry and can be used for measurements up to 2000 {degree}C. Then, the characteristic values obtained are databased. Using the above-mentioned instrument, high temperature thermophysical properties of three kinds of fine ceramics on the market are first made clear in the range up to ultra-high temperature. Constructed is database of thermophysical properties of electric power generating materials which can be used on various database management software for personal computers on the market. About 900 data mostly on ceramics and metal materials are now entered mainly as measured values. 13 figs., 9 tabs.}
place = {Japan}
year = {1991}
month = {May}
}
title = {Ceramic thermophysical properties and construction of database for high-temperature thermophysical properties for electric power plant; Ceramics no koonnetsubussei to hatsuden{prime}yo koon zairyonetsubussei database no kochiku}
author = {Takahashi, T}
abstractNote = {It is indispensible to use fine ceramics under high temperature condition for some parts of equipment of a new electric power generation system aiming at improvement of electric power generation efficiency. However, high-temperature thermophysical properties of ceramics required for design and development of the equipment are unexpectedly unknown. Therefore, high-temperature thermophysical properties of fine ceramics on the market are measured afresh, using the measuring instrument for thermophysical properties of ultra-high-temperature materials which is developed by Central Research Institute of Electric Power Industry and can be used for measurements up to 2000 {degree}C. Then, the characteristic values obtained are databased. Using the above-mentioned instrument, high temperature thermophysical properties of three kinds of fine ceramics on the market are first made clear in the range up to ultra-high temperature. Constructed is database of thermophysical properties of electric power generating materials which can be used on various database management software for personal computers on the market. About 900 data mostly on ceramics and metal materials are now entered mainly as measured values. 13 figs., 9 tabs.}
place = {Japan}
year = {1991}
month = {May}
}