Titanium 3d printing service for Titanium alloy parts has very high strength, precise dimensions, and their mechanical properties are better than the forging process. Because of its good bio compatibility and excellent mechanical properties, titanium alloys are mainly used in biomedical materials, aerospace, and precision instruments.
3D printing technology began to appear in the 1990s. Its development is based on high-energy thermal cladding technology and rapid prototyping technology. Compared with traditional manufacturing technology, it does not need to go through various cutting tools and a variety of complicated processes. The processing time is reduced, and the processing and manufacturing accuracy of components with complex structures are higher. At present, titanium alloy products have been applied in many fields. The structure of these products is relatively complicated, the variety is large, the batch is small, and the performance requirements are high. Traditional manufacturing technology cannot meet the requirements of these products, while 3D printing technology can meet the requirements of titanium alloy products. Manufacturing technology and performance requirements have been widely used.
3D printing technology began to appear in the 1990s. Its development is based on high-energy thermal cladding technology and rapid prototyping technology. Compared with traditional manufacturing technology, it does not need to go through various cutting tools and a variety of complicated processes. The processing time is reduced, and the processing and manufacturing accuracy of components with complex structures are higher. At present, titanium alloy products have been applied in many fields. The structure of these products is relatively complicated, the variety is large, the batch is small, and the performance requirements are high. Traditional manufacturing technology cannot meet the requirements of these products, while 3D printing technology can meet the requirements of titanium alloy products. Manufacturing technology and performance requirements have been widely used.
Titanium alloy is an alloy composed of titanium and other elements added as the basis. Titanium alloy has the characteristics of high strength, good corrosion resistance and high heat resistance.
Titanium is an important structural metal with high strength, good corrosion resistance, and high heat resistance. It is widely used in the production of aircraft engine compressor components, as well as various structural parts of rockets, missiles and aircraft.
High specific strength. The density of titanium alloy is only 60% of steel. The strength of pure titanium is close to that of ordinary steel. Some high-strength titanium alloys exceed the strength of many alloy structural steels. Therefore, the specific strength (strength/density) of titanium alloy is much greater than other metal structural materials, and parts with high unit strength, good rigidity and light weight can be manufactured.
High thermal intensity. The service temperature of titanium alloy is several hundred degrees higher than that of aluminum alloy, and it can work for a long time at a temperature of 450℃~500℃. The working temperature of aluminum alloy is below 200°C.
Good corrosion resistance. Titanium alloy works in moist atmosphere and sea water medium, its corrosion resistance is far better than stainless steel, and its resistance to pitting corrosion, acid corrosion and stress corrosion is particularly strong.
Good low temperature performance. Titanium alloys can still maintain their mechanical properties at low temperatures. For example, TA7 can maintain a certain degree of plasticity at -253°C. Therefore, titanium alloy is also an important low-temperature structural material.
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