Ti-6Al-4V sheet specimens were cathodically charged at a constant current density (100 mA/cm^2 in 1N H2SO4 aqueous solution for various periods. Qualitative and quantitative analyses performed by employing XRD (X-ray diffractometry) and GDOS (glow discharge optical spectrometry) showed that the specimens hydrogenated for 48 hrs exhibit higher hydrogen uptake and deeper diffusion depth, however, those hydrogenated for 12 hrs exhibited the highest hydrogen uptake efficiency. Preferential dissolution of α phase for specimens processed less than 12 hrs were revealed by using ICP-MS (inductively coupled plasma-mass spectroscopy). Hydrides having precipitated in the α-phase at the near surface peeled off (due to volume expansion) into the electrolyte, and thus resulted in reduced HUE for specimens having experienced longer charging periods. In order to increase HUE, the hydrogenation promoter, Na2S2O3•5H2O, was added into the electrolyte to see the effect on the hydrogen absorption. It was found by XRD and GDOS that hydrogen uptake efficiency obtained at 100mA/cm^2 for l2hrs with adding 0.5 g/L Na2S2O3•5H2O into the electrolyte was significantly increased over those processed for 48 hrs without adding the promoter.