Thermal Desorption of Hydrogen at the Titanium Hydride-Oxide Interface

Bun Tsuchiya; Shinji Nagata; Naofumi Ohtsu; Kentaro Toh; Tatsuo Shikama

doi:10.2320/matertrans.46.196

Bun Tsuchiya, Shinji Nagata, Naofumi Ohtsu, Kentaro Toh, Tatsuo Shikama

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Keywords: titanium hydride, titanium oxide, elastic recoil detection, thermal desorption, isothermal annealing, thermal detrapping

JOURNAL FREE ACCESS

2005 Volume 46 Issue 2 Pages 196-198

DOI https://doi.org/10.2320/matertrans.46.196

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Abstract

Changes in hydrogen distribution in δ-phase titanium hydrides (TiH_1.92∼1.95), covered with titanium oxide layers (TiO and TiO₂), were investigated by elastic recoil detection analysis (ERDA) after isochronal and isothermal annealing experiments. The hydrogen concentration near to the surface of the hydride exponentially decreased as a function of annealing time in the temperature range from 423 to 523 K. The result shows that the thermal desorption of hydrogen from the hydride is governed by first-order reaction kinetics and greatly depends on the thermal detrapping process. The thermal detrapping rates of hydrogen at the hydride-oxide interface were estimated and their activation energy was determined to be 1.3±0.2 eV.

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