Abstract
Structural changes of the C15 Laves phase GdFeP 2 during differential thermal analysis in a hydrogen atmosphere have been investigated by X-ray diffraction and transmission electron microscopy. The DTA curves exhibit four exothermic peaks resulting from hydrogen absorption, hydrogen-induced amorphization (HIA), precipitation of GdH 2 and crystallization. As the hydrogen pressure increases, the onset temperatures of hydrogen absorption, HIA and crystallization become lower. Correspondingly, the activation energies for hydrogen absorption and for HIA decrease from 125 to 110 kJ/mol and from 130 to 95 kJ/mol, respectively, but that for the precipitation of GdH 2 is almost constant as 200 kJ/mol. These results indicate that as the hydrogen pressure increases, both the hydrogen absorption and amorphization occur easily.
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