Abstract
New material was developed to be of high efficiency radiation characteristics as far infrared radiation heater material, and moreover resistivity against the heat and corrosion. This material is metal/ceramics compound type radiative material which is Fe-Cr alloy stainless steel, added with metallic element as its third component of alloy and thermally treated, so specially as to from ceramic layer, grown continuously oblique toward the surface from the stainless steel layer of base material. Conventional material, coated with organic/inorganic paint or flame-coated with ceramics, is defective in resistivity against the heat, corrosion and impact, workability, etc. Differently from the conventional adhesion method, the present material was built up by a method to form ceramics, grown from the metallic inside, which extremely ameliorated the conventional defectiveness. Thus, a high radiation efficiency, higher than 80%, was recorded at more than 5micronm in length of far infrared wave. The present material is integrated in gas equipment to be the most appropriate to painting and heating/drying of wood, resin, etc. Apart, it can be applied/used in food, kitchen, air heating and other equipment. 12 refs., 11 figs., 3 tabs.
Doi, S;
Miyazaki, S;
[1]
Kawasaki, T
[2]
- Osaka Gas Co. Ltd., Osaka (Japan)
- Kawasaki Steel Corp., Tokyo (Japan)
Citation Formats
Doi, S, Miyazaki, S, and Kawasaki, T.
Development of new far infrared radiation materials and their application to gas equipment. Ensekigaisen hosha shinzairyo no kaihatsu to gas kiki eno oyo.
Japan: N. p.,
1991.
Web.
Doi, S, Miyazaki, S, & Kawasaki, T.
Development of new far infrared radiation materials and their application to gas equipment. Ensekigaisen hosha shinzairyo no kaihatsu to gas kiki eno oyo.
Japan.
Doi, S, Miyazaki, S, and Kawasaki, T.
1991.
"Development of new far infrared radiation materials and their application to gas equipment. Ensekigaisen hosha shinzairyo no kaihatsu to gas kiki eno oyo."
Japan.
@misc{etde_7486050,
title = {Development of new far infrared radiation materials and their application to gas equipment. Ensekigaisen hosha shinzairyo no kaihatsu to gas kiki eno oyo}
author = {Doi, S, Miyazaki, S, and Kawasaki, T}
abstractNote = {New material was developed to be of high efficiency radiation characteristics as far infrared radiation heater material, and moreover resistivity against the heat and corrosion. This material is metal/ceramics compound type radiative material which is Fe-Cr alloy stainless steel, added with metallic element as its third component of alloy and thermally treated, so specially as to from ceramic layer, grown continuously oblique toward the surface from the stainless steel layer of base material. Conventional material, coated with organic/inorganic paint or flame-coated with ceramics, is defective in resistivity against the heat, corrosion and impact, workability, etc. Differently from the conventional adhesion method, the present material was built up by a method to form ceramics, grown from the metallic inside, which extremely ameliorated the conventional defectiveness. Thus, a high radiation efficiency, higher than 80%, was recorded at more than 5micronm in length of far infrared wave. The present material is integrated in gas equipment to be the most appropriate to painting and heating/drying of wood, resin, etc. Apart, it can be applied/used in food, kitchen, air heating and other equipment. 12 refs., 11 figs., 3 tabs.}
place = {Japan}
year = {1991}
month = {Apr}
}
title = {Development of new far infrared radiation materials and their application to gas equipment. Ensekigaisen hosha shinzairyo no kaihatsu to gas kiki eno oyo}
author = {Doi, S, Miyazaki, S, and Kawasaki, T}
abstractNote = {New material was developed to be of high efficiency radiation characteristics as far infrared radiation heater material, and moreover resistivity against the heat and corrosion. This material is metal/ceramics compound type radiative material which is Fe-Cr alloy stainless steel, added with metallic element as its third component of alloy and thermally treated, so specially as to from ceramic layer, grown continuously oblique toward the surface from the stainless steel layer of base material. Conventional material, coated with organic/inorganic paint or flame-coated with ceramics, is defective in resistivity against the heat, corrosion and impact, workability, etc. Differently from the conventional adhesion method, the present material was built up by a method to form ceramics, grown from the metallic inside, which extremely ameliorated the conventional defectiveness. Thus, a high radiation efficiency, higher than 80%, was recorded at more than 5micronm in length of far infrared wave. The present material is integrated in gas equipment to be the most appropriate to painting and heating/drying of wood, resin, etc. Apart, it can be applied/used in food, kitchen, air heating and other equipment. 12 refs., 11 figs., 3 tabs.}
place = {Japan}
year = {1991}
month = {Apr}
}