CHEN Guoliang, HUANG Yuanding, SUN Zuqing, and YANG Wangyue, Strain-induced Microstructural Changes and Effects of Alloying Elements for Fe3Al-based Alloys, J. Univ. Sci. Technol. Beijing, 4(1997), No. 2, pp. 37-37.
Cite this article as:
CHEN Guoliang, HUANG Yuanding, SUN Zuqing, and YANG Wangyue, Strain-induced Microstructural Changes and Effects of Alloying Elements for Fe3Al-based Alloys, J. Univ. Sci. Technol. Beijing, 4(1997), No. 2, pp. 37-37.
CHEN Guoliang, HUANG Yuanding, SUN Zuqing, and YANG Wangyue, Strain-induced Microstructural Changes and Effects of Alloying Elements for Fe3Al-based Alloys, J. Univ. Sci. Technol. Beijing, 4(1997), No. 2, pp. 37-37.
Citation:
CHEN Guoliang, HUANG Yuanding, SUN Zuqing, and YANG Wangyue, Strain-induced Microstructural Changes and Effects of Alloying Elements for Fe3Al-based Alloys, J. Univ. Sci. Technol. Beijing, 4(1997), No. 2, pp. 37-37.
State Key Laboratory for Advanced Metals and Materials, USTB, Beijing 100083, China
中文摘要
The strain-induced microstructural changes of Fe3Al-based alloys during room temperature deformation and high temperature creep were investigated. The results illustrated the strain-induced disor dering occured during room temperature deformation. Creep strain could induced two opposite processes, which are strain-induced disordering and creep recovery-induced reordering. These two opposite creep induced processes during creep result in reducing the influence of primary microstructure on the rupture life.
The strain-induced microstructural changes of Fe3Al-based alloys during room temperature deformation and high temperature creep were investigated. The results illustrated the strain-induced disor dering occured during room temperature deformation. Creep strain could induced two opposite processes, which are strain-induced disordering and creep recovery-induced reordering. These two opposite creep induced processes during creep result in reducing the influence of primary microstructure on the rupture life.