Immersion anode(Ti/Cu,Zr/Cu,Stainless steel /Cu...) advantages
What is the classification and application of Coating Titanium Anode DSA?
Coating titanium Anode DSA (Dimensionally Stable Anode), also known as Dimensionally Stable Anode, is a new insoluble Anode material developed in the late 1960s.The Dimensionally Stable Anode, which is also known as Dimensionally Stable Anode, is the Anode of platinum, graphite and lead alloyThe traditional anode materials are roughly divided into three categories: platinum, graphite and lead alloy anode.Platinum is expensive, graphite and lead alloy anode during high current electrolytic corrosion, corrosion resistance is poor, the oxygen evolution potential, electrochemical catalytic performance is low, energy consumption is larger, especially toxic lead will dissolve in a solution in the anode, cause secondary pollution, and make the coating performance.Application of DSA coating titanium anodeDSA coating titanium anode is mainly used in electrochemical and electrometallurgy.The applications of DSA coating titanium anode are: chlor-alkali industry, chlorate production, hypochlorite production, perchlorate production, sulfite electrolysis, electricitySolution of organic synthesis, production of electrolytic extraction of non-ferrous metal, electrolytic silver catalyst, manufacturing electrolysis copper foil, electrolytic oxidation recycling mercury, electrolysis, chlorine dioxide production, hospital wastewater treatment, electroplating factory cyanide wastewater treatment, water and food utensils disinfection, power plant cooling circulating water treatment, woolen mill dyeing wastewater treatment, industrial water treatment, electrolysis legal system in acid and alkaline ionized water, copper zinc plated, rhodium, palladium plating, plating, plating lead, electrodialysis desalination, electrodialysis method take tetramethyl ammonium hydroxide, molten salt electrolysis, battery production, cathodic protection, in the production of the cathode foil, aluminum foil anodic oxidation, etc.It is widely used in chemical, metallurgy, water treatment, environmental protection, electroplating, organic synthesis and other fields.In recent years, in the surface treatment industry, the application of DSA coating titanium anode appears new trend.If you add some nanometer material to the coating to improve itThe electrocatalytic activity of the DSA anode, as in some specific plating solution, can inhibit some impurity ion by regulating the oxygen potential of DSA coatingThe purpose of ensuring the stability of the plating.With the study of DSA coating titanium anode, its application prospect will be more and more extensive.
What are the advantages of plating using insoluble anode Advantages?
What are the advantages of plating using insoluble anodeAdvantages:Of the anode geometry size remains the same, so that the current and metal distribution can be optimized and maintain;Insoluble anode don't need to have coating, not meet high barrier property anodic film (plating efficiency loss) or decomposition products gathered and related problems, these problems will affect the anode and the performance of the plating solution.This will improve the consistency of performance and increase the service life of plating solution;Anode to maintain a minimum.Don't have to stop production line to cleaning and supplement the anode, and change the anode bag to anode coating (productivity, artificial cost reduction);Insoluble anode can prevent a potential problem, namely the metal particles and soluble anode, bring risks to plating substrate, which can lead to nonconforming product.
What's the technical requirements of the Titanium base plating platinum?
Titanium base plating platinumelectrode is the use of special plating process, on the surface of the titaniumsubstrate that through specialized processing platinum plating, can allplatinum plating or local platinum plating, more can platinum plating ontitanium package composite materials such as copper. Product surface is silverywhite, with uniform fine coating, combined with the strong, large outputcurrent, long life and other advantages. Mainly used in: electroplating,biomedical, chemical synthesis, cathodic protection and other fields. Base material: level of pure titanium TA1 GR1The working current range: ㎡Working temperature: ℃Plating metals: 99.99% PtPlatinum content: 22.45 g / ㎡ / u mPlatinum layer thickness: 0.1 to 15 u mProducts shape: network, plate, pipe, bar, etcUsing the environment: PH: 0 to 14Use instructions: prevent hard scratch, stopusing are taken from the electrolytic cell, the surface of the water, drystorage. Current, the greater the shorter service life, containing fluorineions in a solution of using, will quickly damage the electrode.We produce titanium coated platinum electrode,using high temperature coating. Shape is diverse, platinum content is 12 g / ㎡ / u m, platinum layer thickness 0.2- 5 u m.Titanium plate electrode is mainly used inhigh current environment local conductive contact (such as: galvanized steelplate, PS version, etc.), acid, alkaline ionized water making, etc.
Why we recommened immersion anode instead of conventional anode using in actual production?
Immersion Busbar: (Ti clad Cu, Zr clad Cu ,316L clad Cu) Current-transfer under solution result in low potential and high efficiency. Non-copper oxide, free maintenance.Good for long-term operation. Current supply is stable.Non fall-off of deposited impurities and copper oxide cause the easy management solution.High current transfer doesn’t cause heat generation to reduce loading of ventilation and cooling systems.Open space makes the loading of anode easier and safer. Convensitonal Busbar: (Copper bar)Current-transfer in the air result in high resistance and potential.To clean copper oxide is necessary.To clean oxide will shorten copper size to decrease current supply.The solution will contaminated by the fall-off of deposited impurities and copper oxideHigh electrical resistance causes heat generation to make loading of ventilation and cooling systems heavier.The conventional bus bar interrupts the loading of anode.