Titanium Anodes & Titanium Electrodes

KaiDa's Electrocatalytically Activated Dimensionally Stable Titanium Electrode/Anode Technology

Titanium DSA electrodes are the state of art as anode for a wide range of electrochemical applications. The excellent stability of titanium against surface and pitting corrosion make it dimensionally stable permitted dramatic innovations in equipment design, operation conditions and energy consumptions of many electrolysis processes. The application of coating containing mixed metal oxides (MMO) such as RuO2,IrO2,TiO2 and Ta2O5 allows to reduce remarkably the overpotential for anodic chlorine and anodic oxygen evolution. Additionally the MMO coated anode's excellent stability consequently do not contaminate the electrolysis system, improving the products purity and maintenance costs.      As an specialist in PGM catalysts technology, KaiDa extended it's technical know-how to the R&D of electrocatalytic products and established a complete "in-house" facility for custom titanium electrode design, testing and evaluation of the optimum performance requirements. KaiDa offers different types Anode Types and Composition, Applications

Type Application Composition Ruthenium Coated Ti Anode Used in Chlor-alkali , Potassium Chlorate Production, Water Electrolysis, Sewage Treatment. Base Materials : Ti Coating Materials: RuO2, TiO2 Ruthenium / Iridium Coated Ti Anode Used in Gold Plating, Platinum Plating, Nickel Plating, Chromium Plating, etc. Base Materials : Ti Coating Materials : RuO2, IrO2, TiO2 Iridium / Tantalum Coated Ti Anode Used in Oxygen-Evolution Condition, especially in Oxygen-Evolution Condition, Sulfuric Acid Medium and Copper Foil Field with high current density Base Materials : Ti Coating Materials : RuO2, Ta2O5 , TiO2 Precious Metal Coated Ti Anode Precious metal chemicals baths and salts in Gold, Rhodium, Ruthenium, Platinum and Palladium Base Materials :Ti Coating Materials: Pt, Pd, Au Rh, Ru, etc.

Size and shape are determined by The electrochemical cell or installation wherein the anodes are used. The process conditions such as electrolyte compostion, temperature, current density, design life, etc Mechanical load of the anode. Capacity of electrical conductivity of the base material.

All substrates and electrolysis cells are produced according to customer specifications. We disassemble, inspect, repair and assemble these cells and provide the cells with new or recoated electrodes if necessary. We also manufacture complete replacement cells. When these specifications are not yet completely determined, our engineers are pleased to use their knowledge and experience to finalize the design together with the customer. In addition, one of our unique advantage is that we also produce all coating precursor materials in house which let us pass on extra value to our customers. The combination of industry standard manufacturing of the titanium substrate and in house MMO precursor materials fabrication, enable KaiDa to provide the industry's lowest cost of ownership.

KaiDa's titanium substrate processing facility is capable of producing electrode with different size, form, shape and other customized configurations. With our intelligent coating formulation from standard designs to custom designs, our titanium DSA electrodes have been successfully used in a wide range of electrochemical applications.

Advantages When activated coating is passivated, it can be coated again and use repeatedly. Economical energy. Low weight. High dimensional stability and load resistance. Highly suitable as auxiliary anodes of complex geometrical shapes. Manufacturing Range Box type Rod type Wire type Ring Type Plate Type Mesh Type Louver Type Ribbon Type Tubular Type Runner Type Any other Geometry Applications Copper foil production Chlor Alkali Cells Chlorine Dioxide Cell Caustic Potash Water Electrolysis Sewage Treatment Cathodic Protection Electrolysis plating Swimming Pool Water Treatment Industrial Waste Water Treatment Electrowinning Metal Extraction/Recovery The Manufacture of Inorganics The Manufacture of Organics The Manufacture of Organics The Recycle of Chemicals and Materials Separation and Purification Pulp and Paper Atmosphere Control and Improvement Destruction of Toxic Waste Soil and Groundwater Remediation