1.Low density and high strength: the density of titanium alloy is about half of iron, but it has excellent strength. This makes titanium alloy a very lightweight but robust material for applications that require both lightweight and high strength.
2.Excellent corrosion resistance: Titanium alloy has excellent corrosion resistance and can maintain stable performance under many harsh environmental conditions. It can resist the erosion of oxidation, acid, alkali and other corrosive media, so it is widely used in Marine engineering, chemical equipment, aerospace and other fields.
3.High temperature performance: titanium alloy can still maintain good mechanical properties and stability in high temperature environment. It has a high melting point and good high temperature resistance, suitable for high temperature process and high temperature environment applications, such as aircraft engines, nuclear industry and so on.
4.Biocompatibility: Titanium alloy has good biocompatibility, that is, it will not cause obvious rejection or allergic reaction when in contact with human tissue. This makes titanium alloys an ideal material for medical devices such as artificial joints and dental implants.
5.Good processing performance: titanium alloy has good plasticity and machinability, can be formed by forging, stretching, spinning and other processes. It also has a low coefficient of thermal expansion and excellent welding performance, which is easy to process and manufacture.