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Formation of metal hydrides by mechanical alloying

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Metal hydrides (TiH1.9, δ-ZrH1.66 and MgH2) have been synthesized by mechanical alloying of metal powders in a hydrogen atmosphere at room temperature. The milling process was monitored using H2 pressure measurement. The sharp decrease in H2 pressure during milling indicates a high rate of H2 absorption into the metal powders. X-ray diffraction analysis of as-milled powders shows convertion to hydrides at short milling times (less than 6 h). Decomposition of the so-formed metal hydrides has been observed during thermal analysis. The results indicate that pulverization and deformation processes occurring during high energy ball impacts play a major role in the hydriding reaction.

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Journal of Alloys and Compounds

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