Abstract
In this work, the aim was to develop a Ti alloy with improved mechanical properties and improved corrosion resistance in acidic environments. The results show that the thicknesses of the α' phase first increases and then decreases with increasing Zr content. The elastic modulus (E) first decreases and then increases, while the hardness (H), wear resistance, and plasticity index (Up/Ut) gradually increase. Moreover, the corrosion resistance of Ti-Zr alloys was improved significantly as the Zr concentration increased, which was mainly reflected in an increase in the polarization resistance and a decrease in the corrosion rate.
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