The titanium electrode maintains a stable size and electrode spacing throughout the electrolysis process, ensuring stable cell voltage during operation. It exhibits strong corrosion resistance, making it suitable for use in highly corrosive electrolytic environments with specific requirements. Furthermore, titanium electrodes have a long service life, and their lightweight nature reduces labor intensity. Additionally, the base titanium material is recyclable. These electrodes operate at low voltage, resulting in low power consumption and high current efficiency. While the titanium electrode is not completely insoluble, its consumption rate is exceptionally low. Typically, its service life ranges from 0.5 to 50 years, depending on usage conditions and the environment. However, the following precautions must be observed to ensure long-term safe operation and optimal performance:

1. The titanium electrode develops a black surface after oxidation and sintering. The uncoated surface appears blue and lacks electrode performance. The cathode is represented by the dark side.

2. The recommended normal working current density ranges from 2000 to 5000 A/m. Excessive current can lead to intense reactions and shorten the anode's lifespan.

3. The electrolyte must not contain cyanide ions or fluoride ions, as these impurities can severely corrode the titanium matrix.

4. The distance between the cathode and anode can be set based on specific conditions, generally ranging from 5 to 25 mm. Increasing the pole distance will result in higher power consumption, and it should not be too small to prevent cathode scale formation and plate short circuits.

5. Avoid bending or subjecting the titanium anode to significant impact, as it can cause the precious metal coating to detach.

6. Before installing the electrodes, ensure there are no lap short circuits between the anode and cathode. Do not use them with electricity if short circuits are detected.

7. The working temperature of the electrolyte should not be excessively high, with an ideal range of 25-80 degree .

8. During shutdown, rinse the electrode plate's surface with clean water and avoid prolonged immersion in the solution. If possible, maintain a small current of 2-5 A to protect the plate.

9. When starting up, gradually increase the current to the electrolytic cell and avoid sudden raises. The same gradual approach should be followed during the shutdown.

10. Keep the anode clean throughout production and use, ensuring it remains free from oil or other contaminants that may affect electrolysis efficiency and electrode lifespan.

11. During installation, handling, and operation, prevent the titanium anode's surface from rubbing against hard objects, as this can cause the precious metal attachments to peel off, significantly impacting the electrode's service life.