Our products are tested and found through testing processes such as tensile testing machines, high and low temperature test chambers, and accelerated life tests.
Titanium anode products have the advantages of high corrosion resistance and long working life.
Titanium is a dense hexagonal lattice at room temperature (below 885 degrees), and a body-centered cubic lattice above 885 degrees, with a volume increase of 5.5%.
Titanium alloys can reach 700 to MPa, and even up to MPa, so the specific strength of titanium alloys (i.e., the ratio of strength to density), than any other materials are now larger. So titanium alloys in the use of strength requirements also more lightweight.
Current density: bellow A/M2
Temperature: 20-40&#;
There mustn't be any fluorine and cyanide ions in the electrolyte
Iridium oxide-coated titanium anodes are celebrated for their versatility and efficiency across various industrial applications. These anodes are integral in processes requiring high conductivity and exceptional corrosion resistance, making them indispensable in industries such as electroplating, metal production, cathodic protection, and water treatment. Below, we delve into the significant roles they play in these key sectors, highlighting their impact on operational efficiency, product quality, and environmental sustainability.
Iridium oxide-coated titanium anodes are pivotal in the electroplating industry, where their high conductivity and corrosion resistance are highly valued. These anodes ensure prolonged operational life while efficiently attracting metal ions, which is essential for creating durable and robust metal coatings on various surfaces.
This capability not only improves the quality and durability of plating but also enhances the overall efficiency of the electroplating process. As a result, they provide a reliable and cost-effective solution for a wide range of electroplating applications, leading to reduced costs and consistent, high-quality outcomes.
The production of aluminum foil greatly benefits from the use of iridium oxide-coated titanium anodes. These anodes are essential for conducting electrical currents during the electrolysis process, which is a critical step in aluminum production. Their superior electrical conductivity and corrosion resistance significantly enhance the efficiency of this process.
As a result, there is a stable and quality deposition of aluminum, leading to the production of consistent and reliable aluminum foil. This efficiency and reliability make iridium oxide-coated titanium anodes indispensable in the aluminum foil manufacturing industry.
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In the electrolytic production of copper foil, iridium oxide-coated titanium anodes are highly valued for their ability to attract metal ions from the electrolyte and facilitate their deposition onto the substrate, resulting in high-quality copper foil. Their exceptional electrical conductivity ensures efficient current transfer, optimizing the electrolysis process.
Moreover, these anodes are engineered to withstand corrosive production environments, ensuring consistent performance and minimizing the need for maintenance and replacement. This makes them essential for producing efficient, durable, cost-effective copper foil.
The galvanized steel sheet manufacturing process benefits immensely from the use of iridium oxide-coated titanium anodes. Their high electrical conductivity and corrosion resistance make them ideal for electroplating, ensuring a consistent supply of electrical current for zinc coating on steel surfaces.
The combination of titanium and iridium oxide in these anodes leads to uniform plating thickness and enhanced production efficiency. Additionally, iridium oxide&#;s corrosion resistance extends the anodes&#; lifespan, leading to reduced maintenance costs and increased productivity.
In water treatment, iridium oxide-coated titanium anodes are crucial for efficient and eco-friendly electrochemical disinfection and electrocoagulation. They operate effectively in harsh chemical environments, thanks to their corrosion resistance, and their high electrocatalytic activity enhances the removal of impurities from water.
These anodes enable a chemical-free approach to water purification, making them key components in the process of ensuring clean and safe water. Their extended lifespan and operational efficiency also contribute to the cost-effectiveness and environmental sustainability of water and wastewater treatment processes.
Iridium oxide-coated titanium anodes are also integral in cathodic protection systems, where they play a crucial role in preventing corrosion of metal structures such as pipelines, tanks, and marine vessels. These anodes, due to their high corrosion resistance and electrical conductivity, are effective in creating a protective electrochemical environment around the metal structure.
By applying a controlled current to the metal, these anodes transform potential corrosion sites into cathodic areas, thus preventing the metal&#;s degradation. The durability and efficiency of iridium oxide-coated titanium anodes make them a preferred choice for long-term cathodic protection solutions, significantly extending the lifespan of critical infrastructure in various industries.
Contact us to discuss your requirements of iridium oxide coated titanium anodes. Our experienced sales team can help you identify the options that best suit your needs.