Product Features
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High Corrosion Resistance: The titanium substrate combined with noble metal coatings enables stable operation in highly corrosive environments such as strong acids and alkalis, providing a service life of several years.
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Excellent Conductivity and Catalytic Performance: The coating features low resistivity and high electrocatalytic activity, significantly reducing the overpotential of oxygen and chlorine evolution reactions to lower energy consumption.
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Dimensional Stability: The electrode maintains its geometric integrity during electrolysis, preventing short-circuit risks and supporting high current densities (e.g., 5000 A/m²) to improve production efficiency.
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Environmental and Economic Benefits: The insoluble design prevents contamination of the electrolyte by metals such as lead, while the uniform, high-purity coating and reusable substrate reduce maintenance costs.
Application
This material is widely applied in the electroplating industry for processes such as nickel, chromium, zinc, and copper plating, serving as a superior alternative to traditional lead-based anodes by reducing energy consumption and improving coating quality. It also plays a critical role in the chlor-alkali industry as a core anode material for electrolyzing brine to produce chlorine and caustic soda, enabling higher current densities and enhanced product purity. Additionally, it is used in wastewater treatment, electrolytic metallurgy, and hydrogen production through water electrolysis, demonstrating exceptional performance in high-demand sectors such as aerospace, electronics, and automotive component protection.
