Grain refining of Er added and morphology of erbium to Ti-22Al-25Nb alloy precipitates

In order to investigate the effect of erbium (Er) on the microstructure of orthorhombic Ti2A1Nb-based alloys, four testing alloys were prepared by adding differ- ent contents of the rare earth metal Er to Ti-22A1-25Nb alloy and optical microscopy, X-ray diffraction, scanning electron microscopy, ele...

Full description

Saved in:
Bibliographic Details
Published in稀有金属:英文版 no. 1; pp. 5 - 11
Main Author Jing-Ru Dai Hui-Min Lu Zhi-Jin Cai, Chao An
Format Journal Article
LanguageEnglish
Published 2013
Subjects
X射线衍射仪
合金
形态
扫描电子显微镜
掺铒
晶粒细化
析出物
透射电子显微镜
Online AccessGet full text

Cover

More Information
Summary:In order to investigate the effect of erbium (Er) on the microstructure of orthorhombic Ti2A1Nb-based alloys, four testing alloys were prepared by adding differ- ent contents of the rare earth metal Er to Ti-22A1-25Nb alloy and optical microscopy, X-ray diffraction, scanning electron microscopy, electron probe microanalysis, energy- dispersive spectrometry, and transmission electron microscopy were used. The results show that the addition of Er is capable of grain refining and the refinement effect is more obvious with increasing content of Er. The Er203 dispersoids formed by internal oxidation and A13Er com- pound particles are observed in Er-doped alloys and the number of Er precipitates is increased with increasing Er addition. It is likely that the solubility of Er in the Ti2A1Nb alloy is very low and Er precipitates tend to segregate at grain boundaries, which together with the surface activity of rare earth elements is supposed to decrease the prior B2 grain size of Ti-22A1-25Nb alloy effectively.
Bibliography:In order to investigate the effect of erbium (Er) on the microstructure of orthorhombic Ti2A1Nb-based alloys, four testing alloys were prepared by adding differ- ent contents of the rare earth metal Er to Ti-22A1-25Nb alloy and optical microscopy, X-ray diffraction, scanning electron microscopy, electron probe microanalysis, energy- dispersive spectrometry, and transmission electron microscopy were used. The results show that the addition of Er is capable of grain refining and the refinement effect is more obvious with increasing content of Er. The Er203 dispersoids formed by internal oxidation and A13Er com- pound particles are observed in Er-doped alloys and the number of Er precipitates is increased with increasing Er addition. It is likely that the solubility of Er in the Ti2A1Nb alloy is very low and Er precipitates tend to segregate at grain boundaries, which together with the surface activity of rare earth elements is supposed to decrease the prior B2 grain size of Ti-22A1-25Nb alloy effectively.
Ti2A1Nb-based alloys; Rare earth erbium(Er); Microstructure; Erbium precipitates
11-2112/TF
ISSN:1001-0521
1867-7185