Oxidation Induced Cubic-Tetragonal Phase Transformation In Titanium Hydride Powders

We studied the effect of oxidation temperature and initial hydrogen concentration on the occurrence of cubic (delta) to tetragonal (epsilon) phase transformation induced by thermal oxidation of titanium hydride powders in air. X-ray diffraction analysis indicates that gamma -> epsilon transformation occurs during oxidation at 400 degrees C, but not at lower (300 degrees C) or higher (500 degrees C) oxidation temperatures. The relative amounts of hydrogen loss during oxidation were determined by temperature-programmed desorption mass spectrometry (TPD-MS). The findings suggest that oxygen stabilizes the tetragonal phase (epsilon), and that the delta/epsilon phase composition following oxidation depends on both oxygen and hydrogen concentrations. For high oxidation temperatures (500 degrees C), some degree of hydride decomposition leads to a decrease in H concentration and to destabilization of the tetragonal phase after cooling down to room temperature. (C) 2020 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.