TY - GEN
T1 - The Relationship of TiCp/Titanium Based Composites Creep Mechanism and Microstructure
AU - Zhang, Pengsheng
AU - Zhao, Yongqing
AU - Mao, Xiaonan
AU - Zeng, Weidong
AU - Yu, Lanlan
N1 - Publisher Copyright:
© Ti-2007 - Proceedings of the 11th World Conference on Titanium. All Rights Reserved.
PY - 2007
Y1 - 2007
N2 - The creep properties and fracture microstructure of TiCp reinforced Ti based composites were investigated, while creep mechanism being discussed in this article. The thermal creep properties in different heat-treatment conditions were tested, and the microstructures and fracture were observed by SEM. The results show something as follows: Firstly, there is somewhat mismatching between particles and matrix for their difference of the properties. Because much more dislocation resulted by mismatching piled up on the interfaces of TiCp/Titanium, transmitting the stresses loaded on matrix to particles, dislocation pile-up stress field hindered the after dislocation movement to decrease creep deformation. Secondly, TP-650 showed binary microstructure with lower initial alpha phase, which often lead to a little residual deformation of creep. The creep fracture microstructures were cavity-shape fracture, and micro-crack occurred on the edges of the fracture. Thirdly, the creep deformation mechanism is mainly dislocation slide, and fracture seemed to be candy appearance along the grain boundary.
AB - The creep properties and fracture microstructure of TiCp reinforced Ti based composites were investigated, while creep mechanism being discussed in this article. The thermal creep properties in different heat-treatment conditions were tested, and the microstructures and fracture were observed by SEM. The results show something as follows: Firstly, there is somewhat mismatching between particles and matrix for their difference of the properties. Because much more dislocation resulted by mismatching piled up on the interfaces of TiCp/Titanium, transmitting the stresses loaded on matrix to particles, dislocation pile-up stress field hindered the after dislocation movement to decrease creep deformation. Secondly, TP-650 showed binary microstructure with lower initial alpha phase, which often lead to a little residual deformation of creep. The creep fracture microstructures were cavity-shape fracture, and micro-crack occurred on the edges of the fracture. Thirdly, the creep deformation mechanism is mainly dislocation slide, and fracture seemed to be candy appearance along the grain boundary.
KW - creep mechanism
KW - fracture microstructure
KW - mismatching
KW - TiCp reinforced Ti matrix composites
UR - http://www.scopus.com/inward/record.url?scp=85182264956&partnerID=8YFLogxK
M3 - 会议稿件
AN - SCOPUS:85182264956
T3 - Ti-2007 - Proceedings of the 11th World Conference on Titanium
SP - 615
EP - 617
BT - Ti-2007 - Proceedings of the 11th World Conference on Titanium
A2 - Niinomi, M.
A2 - Akiyama, S.
A2 - Ikeda, M.
A2 - Hagiwara, M.
A2 - Maruyama, K.
PB - Japan Institute of Metals (JIM)
T2 - 11th World Conference on Titanium, Ti-2007
Y2 - 3 June 2007 through 7 June 2007
ER -