Effect of cerium content on microstructure and hydrogen storage performance of Ti24Cr17.5V50Fe8.5Cex (x=0–1.0) alloys

Effect of cerium content on microstructure and hydrogen storage performance of Ti24Cr17.5V50Fe8.5Cex (x=0–1.0) alloys

Effect of Ce addition on microstructure and hydrogen storage performance of Ti24Cr17.5V50Fe8.5Cex (x=,0.5at.%, 0.8at.% and 1.0at.%) alloys was studied by X-ray diffraction, scanning electron microscopy and P-C-isotherm measurements. The results indicated that Ce addition was a useful way to improve...

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Veröffentlicht in:Journal of rare earths 2009-02, Vol.27 (1), p.154-158
Hauptverfasser: MI, Jing, LIU, Xiaopeng, LI, Yan, JIANG, Lijun, LI, Zhinian, HUANG, Zhuo, WANG, Shumao
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container_issue 1
container_start_page 154
container_title Journal of rare earths
container_volume 27
creator MI, Jing
LIU, Xiaopeng
LI, Yan
JIANG, Lijun
LI, Zhinian
HUANG, Zhuo
WANG, Shumao
description Effect of Ce addition on microstructure and hydrogen storage performance of Ti24Cr17.5V50Fe8.5Cex (x=,0.5at.%, 0.8at.% and 1.0at.%) alloys was studied by X-ray diffraction, scanning electron microscopy and P-C-isotherm measurements. The results indicated that Ce addition was a useful way to improve the flatness of the plateau and increase hydrogen storage capacity of Ti24Cr17.5V50Fe8.5 alloy. It was indicated that both homogenization of composition and increase of hydrogen diffusion coefficient were the main reasons for improving the hydrogen storage performance of Ti24Cr17.5V50Fe8.5Cexalloys.
doi_str_mv 10.1016/S1002-0721(08)60211-2
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title Effect of cerium content on microstructure and hydrogen storage performance of Ti24Cr17.5V50Fe8.5Cex (x=0–1.0) alloys
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