Titanium is corrosion-resistant, has high strength and good toughness, and has good enough biocompatibility compared to other metal materials, making it a better choice for artificial joint implants. However, the follow-up study found that the wear resistance of titanium alloys was relatively general, and a small number of patients were allergic to them. Some studies have compared the friction experiments of stainless steel and titanium alloy with alumina under seawater conditions and found that the friction performance of titanium alloy is better than that of stainless steel material in a complex environment, and the friction coefficient is much lower than that of stainless steel material. 316L stainless steel under this condition The friction coefficient is about 0.4-0.6, while the friction coefficient of titanium alloy material is 0.2-0.3. However, ASTM F67 Gr2 Titanium Plate materials have the same phenomenon of corrosion and friction synergy as stainless steel materials, and titanium alloy materials are more serious. In the experiment, the volume loss due to corrosion and friction is more than that of stainless steel materials, but it can be improved by surface treatment technology. The friction and wear properties of titanium alloys enhance wear resistance and reduce the friction coefficient.
A study on the Ni-P coating on the surface of Ultra-Thin Titanium Alloy Sheet found that the friction coefficient of the untreated titanium surface is around 0.6 and fluctuates greatly, and the friction coefficient after the Ni-P coating is basically stable at 0.45. In addition, the effect of depositing TiAlN coating on the surface of titanium alloy by magnetron sputtering is obvious. The wear amount of the TiAlN coating sample is only 20% of that of the titanium alloy substrate. Some domestic scholars have also found that the Al2O3/TiO2 composite nanocoating has better wear resistance. In addition, titanium alloys also have other disadvantages: because the surface hardness of titanium alloys is not high enough, the protection effect of surface oxides is poor, and the mechanical properties are poor, so the friction and wear performance are average. Fortunately, there is much research on titanium alloys. In recent years, new β-titanium alloys have come out. These titanium alloys have lower elastic modulus and better biocompatibility, and the general development trend is good. Titanium alloys have a large market as artificial joint materials, and the research progress is considerable. There is still room for improvement in friction and wear performance.
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