Abstract
This project is aimed at development of new technologies for forming composite materials by studying the methods for controlling structures of ceramic- and metal-based composite materials, and also at development of the technologies for forming near-net shapes utilizing the phenomenon of superplasticity. The literature survey is conducted to help promote the developments, and the abstracts of the major papers are pigeonholed into 4 general categories; (1) production and properties of ceramic-based composite materials, (2) superplasticity of ceramic-based composite materials, (3) production and properties of metal-based composite materials, and (4) superplasticity of metal-based composite materials. This paper summarizes the abstract of these papers. The category (1) includes carbon fiber reinforced Sialon composites produced by polymer pyrolysis, the category (2) includes superplasticity of functional ceramics, and comparison of tensile and compressive creep behavior of a superplastic yttria-stabilized zirconia-20 wt.% alumina composite, the category (3) includes in-situ metal matrix composite, and the category (4) includes high strain rate superplasticity in whisker-reinforced alumina composites, and application of superplasticity to fabrication of metal matrix composites. (NEDO)
Citation Formats
None.
FY 1991 report on the results of the surveys on the technologies for forming composite materials. Research and development of the new technologies for forming composite materials (Comprehensive surveys and researches); 1991 nendo fukugo zairyo seikei gijutsu chosa hokokusho. Fukugo zairyo shinseikei gijutsu no kenkyu kaihatsu (sogo chosa kenkyu).
Japan: N. p.,
1992.
Web.
None.
FY 1991 report on the results of the surveys on the technologies for forming composite materials. Research and development of the new technologies for forming composite materials (Comprehensive surveys and researches); 1991 nendo fukugo zairyo seikei gijutsu chosa hokokusho. Fukugo zairyo shinseikei gijutsu no kenkyu kaihatsu (sogo chosa kenkyu).
Japan.
None.
1992.
"FY 1991 report on the results of the surveys on the technologies for forming composite materials. Research and development of the new technologies for forming composite materials (Comprehensive surveys and researches); 1991 nendo fukugo zairyo seikei gijutsu chosa hokokusho. Fukugo zairyo shinseikei gijutsu no kenkyu kaihatsu (sogo chosa kenkyu)."
Japan.
@misc{etde_20175194,
title = {FY 1991 report on the results of the surveys on the technologies for forming composite materials. Research and development of the new technologies for forming composite materials (Comprehensive surveys and researches); 1991 nendo fukugo zairyo seikei gijutsu chosa hokokusho. Fukugo zairyo shinseikei gijutsu no kenkyu kaihatsu (sogo chosa kenkyu)}
author = {None}
abstractNote = {This project is aimed at development of new technologies for forming composite materials by studying the methods for controlling structures of ceramic- and metal-based composite materials, and also at development of the technologies for forming near-net shapes utilizing the phenomenon of superplasticity. The literature survey is conducted to help promote the developments, and the abstracts of the major papers are pigeonholed into 4 general categories; (1) production and properties of ceramic-based composite materials, (2) superplasticity of ceramic-based composite materials, (3) production and properties of metal-based composite materials, and (4) superplasticity of metal-based composite materials. This paper summarizes the abstract of these papers. The category (1) includes carbon fiber reinforced Sialon composites produced by polymer pyrolysis, the category (2) includes superplasticity of functional ceramics, and comparison of tensile and compressive creep behavior of a superplastic yttria-stabilized zirconia-20 wt.% alumina composite, the category (3) includes in-situ metal matrix composite, and the category (4) includes high strain rate superplasticity in whisker-reinforced alumina composites, and application of superplasticity to fabrication of metal matrix composites. (NEDO)}
place = {Japan}
year = {1992}
month = {Mar}
}
title = {FY 1991 report on the results of the surveys on the technologies for forming composite materials. Research and development of the new technologies for forming composite materials (Comprehensive surveys and researches); 1991 nendo fukugo zairyo seikei gijutsu chosa hokokusho. Fukugo zairyo shinseikei gijutsu no kenkyu kaihatsu (sogo chosa kenkyu)}
author = {None}
abstractNote = {This project is aimed at development of new technologies for forming composite materials by studying the methods for controlling structures of ceramic- and metal-based composite materials, and also at development of the technologies for forming near-net shapes utilizing the phenomenon of superplasticity. The literature survey is conducted to help promote the developments, and the abstracts of the major papers are pigeonholed into 4 general categories; (1) production and properties of ceramic-based composite materials, (2) superplasticity of ceramic-based composite materials, (3) production and properties of metal-based composite materials, and (4) superplasticity of metal-based composite materials. This paper summarizes the abstract of these papers. The category (1) includes carbon fiber reinforced Sialon composites produced by polymer pyrolysis, the category (2) includes superplasticity of functional ceramics, and comparison of tensile and compressive creep behavior of a superplastic yttria-stabilized zirconia-20 wt.% alumina composite, the category (3) includes in-situ metal matrix composite, and the category (4) includes high strain rate superplasticity in whisker-reinforced alumina composites, and application of superplasticity to fabrication of metal matrix composites. (NEDO)}
place = {Japan}
year = {1992}
month = {Mar}
}