1、 Electroplating and Metal Smelting

Chrome plating process: Used for chrome plating and hard chrome plating in strong acidic solutions such as chromic acid, with an electrode life of over 5000 hours, suitable for manufacturing Wuxi thin steel plates in the steel industry.

Metal recovery and purification: Electrolytic recovery of non-ferrous metals in strongly acidic solutions to improve metal purity and production efficiency.

Coating anti-corrosion: used for anti-corrosion treatment of metal surfaces, improving the corrosion resistance of metal products and extending their service life.

2、 Chemical Engineering and Organic Synthesis

Preparation of inorganic compounds: electrolytic production of chromic acid, perchlorate, periodate, etc. Among them, electrolytic oxidation method can significantly reduce COD and BOD in wastewater purification.

Organic synthesis catalysis: used for electrolytic oxidation of organic compounds in acidic solutions, such as the preparation of isobutyric acid, to reduce production costs and pollution.

Halite production: Hypochloric acid synthesized by lead titanium dioxide anode has high conversion rate and current efficiency.

3、 Wastewater Treatment and Environmental Protection

Degradation of high concentration organic wastewater: Treating difficult to biodegrade pollutants, treating at a current density of 36mA/cm ² for 12 minutes can achieve a removal rate of nearly 100% for methyl orange.

Industrial waste gas treatment: catalytic conversion of sulfur dioxide and nitric oxide into sulfuric acid and nitric acid, reducing atmospheric pollutant emissions.

High temperature wastewater treatment: It exhibits efficient oxidation ability in high-temperature organic wastewater, achieving rapid decomposition of pollutants.

4、 Other industrial sectors

Ozone preparation: As a high oxygen overpotential electrode material, it is used for electrolytic production of high concentration ozone, with equipment miniaturization and excellent efficiency.

Metal anti-corrosion engineering: Used for anode protection in fields such as marine engineering and petrochemicals to prevent corrosion of metal structures.

Plastic and glass manufacturing: used as a plastic heat stabilizer to enhance weather resistance, or combined with silicates to manufacture high refractive index optical glass.

5、 New Energy and Electrochemistry

Lead acid battery manufacturing: As an important anode material, it enhances the conductivity and chemical stability of batteries.

summary

Lead titanium dioxide anodes are widely used in fields such as electroplating, environmental protection, chemical engineering, and new energy due to their high oxygen evolution potential, corrosion resistance, and low cost, especially in strong acidic and high-temperature environments where their performance is outstanding. In practical applications, electrode parameters need to be selected based on specific scenarios to optimize efficiency and lifespan.