Inhibition effect on microbiologically influenced corrosion of Ti-6Al-4V-5Cu alloy against marine bacterium Pseudomonas aeruginosa

With rapid development of marine infrastructures,materials with better biocorrosion resistance and antibiofouling performance will be highly demanded.Ti6Al4V alloy is susceptible to the above.The inhibition to the microbiologically influenced corrosion of Ti6Al4V-5 Cu alloy against Pseudomonas aeruginosa was investigated using antibacterial test,electrochemical techniques,surface analysis,and weight loss test conducted for 2.5 months.At a sputtering depth of 0 nm,the passive film of Ti6Al4V-5Cu alloy was mainly composed of ideal oxide TiO~2.With increasing sputtering thickness to 6 nm,TiOand TiO were detected with a relative fraction of 14.6% and 14.8%,respectively,in the oxide layer of Ti6Al4V-5 Cu alloy.In contrast,the outermost layer of Ti6AlV alloy was predominantly composed of TiObut TiO(22.8%),AlOand VOwere also detected.With increasing sputtering depth to 6 nm,fitting revealed the presence of TiOand TiO with relative fractions of 25.3% and 35.8%,respectively.Yet,a spot of TiO(8%) was also observed at 12 nm in the oxide layer of Ti6Al4V alloy.Although the addition of Cu into Ti6Al4V alloy generated the self-healing property of passive film in the presence of P.aeruginosa,it also reduced resistance to corrosion in general condition.