The effect of technological parameters during the chrome plating of ti
tanium alloys on their mechanical properties, fatigue and wear resista
nce, antifriction characteristics, hydrogen embrittlement, and hydroge
n distribution in substrates and electroplates is examined. The microb
iological fouling of alloys and deposits is assessed. The effective co
mpositions of solutions and the conditions of treatment of titanium al
loys upon their repetitive chrome plating (up to six times) are determ
ined.