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Creep behavior and microstructure evolution of titanium matrix composites reinforced with TiB, TiC and Y2O3

Lijuan Xu, Yunfei Zheng, Zhenquan Liang, Shiwei Han, Xiang Xue, Shulong Xiao, Jing Tian, Yu-yong CHEN

2023Transactions of Nonferrous Metals Society of China20 citationsDOIOpen Access PDF

Abstract

Titanium matrix composites reinforced with (TiB + TiC) and (TiB + TiC + Y2O3) were prepared by induction skull melting. The creep test was carried out at 650 °C and 120−160 MPa, and the microstructure evolution was characterized in detail by XRD, SEM and TEM. The results show that the microstructure of the two composites is basket-weave structure. Under the same creep condition, the composite with the addition of Y2O3 has lower steady-state creep rate. After creep, silicides precipitated at the α/β interface, around dissolved β phases and reinforcements, which have a strong pinning effect on the dislocation movement. Due to the stacking fault structure through TiB whisker, the size of silicides around TiB is significantly larger than that around TiC and Y2O3. Solute-drag creep is the main creep mechanism, and the dislocation movement is also affected by α/β interface, reinforcements and silicides.

Topics & Concepts

CreepMaterials scienceMicrostructureComposite materialWhiskerComposite numberDislocationTitaniumStacking faultMetallurgyTitanium Alloys Microstructure and PropertiesAluminum Alloys Composites PropertiesIntermetallics and Advanced Alloy Properties
Creep behavior and microstructure evolution of titanium matrix composites reinforced with TiB, TiC and Y2O3 | Litcius