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What are the performance analyses for titanium anodes?

Many people praise titanium anodes for their excellent performance! But do you know what the performance of titanium anodes is? Where is the performance better? I believe many friends cannot answer these two questions. Don't be afraid, let me take you to a detailed analysis of the specific performance of titanium anodes.

1. Low temperature resistance performance

The low-temperature resistance of titanium anodes is relatively good, and their strength increases with the decrease of temperature, but the plasticity changes little. In addition, titanium anodes can still maintain good ductility and toughness at low temperatures of -196-253 ℃, avoiding metal cold brittleness, making them an ideal material for low-temperature containers, storage tanks, and other equipment.

2. Heat resistance performance

The new titanium can be used for a long time at temperatures of 600 ℃ or higher.

3. Anti damping performance

Titanium anode has high anti damping performance. After being subjected to mechanical and electrical vibrations, titanium metal has a longer self vibration attenuation time compared to metals such as steel and copper.

4. Non magnetic and non-toxic

Titanium is a non-magnetic metal that is not magnetized even in high magnetic fields. It is non-toxic and has good compatibility with human tissues and blood, so it is adopted by the medical community.

5. Inspiratory performance

Titanium is a highly reactive metal that can react with many elements and compounds at high temperatures.

6. Corrosion resistance performance

Titanium is a very active metal with a low equilibrium potential and a strong thermodynamic corrosion tendency in the medium. In air or oxygen-containing media, a dense, highly adhesive, and inert oxide film is formed on the surface of titanium, protecting the titanium substrate from corrosion. Even due to mechanical wear, it will quickly self heal or regenerate.

7. Good heat exchange performance

Although the thermal conductivity of titanium metal is lower than that of carbon steel and copper, due to its excellent corrosion resistance, the wall thickness of titanium can be greatly reduced. Moreover, the heat exchange between the surface and steam is droplet condensation, which reduces thermal resistance. The absence of scaling on the titanium surface can also reduce thermal resistance, making titanium's heat transfer performance better.

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