TA1 titanium tube has light weight, high strength and superior mechanical properties. It is widely used in heat exchange equipment, such as tubular heat exchanger, coil heat exchanger, serpentine heat exchanger, condenser, evaporator and transmission pipeline.

Many nuclear power industries use titanium tubes as their unit standard tubes.  

TA1 titanium tube features:

1. TA1 titanium tube has plasticity. The elongation of high-purity titanium tube can reach 50-60%, and the reduction of area can reach 70-80%. Although the strength of high-purity titanium tube is low, pure industrial titanium containing a small amount of impurities and adding alloy elements can significantly strengthen its mechanical properties, making its strength comparable to that of high strength. This means that the industrial pure titanium tube can have both high strength and proper plasticity as long as it contains a small amount of interstitial impurities and other metal impurities.

2. The specific strength (strength to weight ratio) of industrial pure titanium pipe is very high among metal structural materials. Its strength is equivalent to that of steel, but its weight is only 57% of that of steel.

3. TA1 titanium tube has strong heat resistance and can still maintain good strength and stability at 500 ℃.

4. The titanium tube also has good low-temperature resistance. Even at an ultra-low temperature of - 250 ℃, it still has high impact strength and can withstand high pressure and vibration.

5. Strong corrosion resistance, which is due to its strong affinity for oxygen, which can generate a dense oxide film on its surface, which can protect titanium from medium corrosion. Therefore, titanium has good stability in acidic, alkaline and neutral saline solutions and oxidizing media, and is better than existing stainless steel and other non-ferrous metals in corrosion resistance.

The third process of titanium bar is the extrusion process of filling billet, which is an important method to produce products with complex cross section. The process includes: preparing the jacket cavity, and determining the cavity size according to the required final product size plus extrusion coefficient; Nesting: put the powder into the cavity and shake it with vibration; Evacuation, exhaust and sealing of the sheath; Extruding at a certain temperature and extrusion ratio; Peel off the jacket.

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