The effect of vanadium content on the microstructure and hydrogen absorption/desorption properties in Ti-V-Cr alloys was studied. The results show that with the increase of vanadium content from 5at.%, 10at.% to 35at.%, the hydrogen absorption capacity increases gradually from 1.14wt.%, 1.57wt.% to 2.84wt.%, and the hydrogen desorption capacity also increase from 0.43, 0.64, to 1.59. This indicates that the alloy with 35at.% vanadium content has the most optimum hydrogen storage capacity among these alloys. The microstructure observation also indicates that the alloy with 35at.% vanadium turns to be the single-phase alloy of the BCC solid solution. Furthermore, with the increase of vanadium content the pressure plateau becomes more distinguishing and shifts to lower pressure level gradually. The kinetics of hydrogen absorption was also found to be dependent with the vanadium content in these discussed alloys. The effect of vanadium content on the microstructure and hydrogen absorption / desorption properties in Ti-V-Cr alloys was studied. The results show that with the increase of vanadium content from 5 at.%, 10 at.% To 35 at.%, The hydrogen absorption %, 1.57 wt.% to 2.84 wt.%, and the hydrogen desorption capacity also increase from 0.43, 0.64, to 1.59. This indicates that the alloy with 35 at.% vanadium content has the most optimum hydrogen The microstructure observation also indicates that the alloy with 35at.% microstructure observation also indicates that the alloy with 35at.% vanadium turns to be single-phase alloy of the alloys with 35at. lower pressure level gradually. The kinetics of hydrogen absorption was also found to be dependent with the vanadium content in these discussed alloys.