1. Superiority of Ruthenium-Titanium Anode Plates
High current efficiency: It demonstrates excellent current efficiency in chlorine evolution or oxygen evolution environments.
Outstanding corrosion resistance: It can effectively resist corrosion from various media.
Long service life: Compared with traditional electrodes, the service life of the electrode is significantly extended.
Flexible specifications and dimensions: The specifications and dimensions of the electrode can be customized according to user requirements.
Reusability of the base: The electrode base can be reused multiple times, reducing costs.
No medium pollution: It does not cause any pollution to the medium, ensuring a clean production environment.
It is widely applied in the chlor-alkali industry, sodium hypochlorite industry, sewage treatment industry, and freshwater disinfection, among other fields.
2. Superiority of Ruthenium-Iridium Titanium Anode Plates
Dimensional stability: The anode dimensions remain stable during the electrolysis process, and the electrode spacing does not change, ensuring that the electrolysis operation can proceed smoothly under stable cell voltage conditions.
Energy conservation and consumption reduction: The working voltage is low, and the power consumption is small, which can reduce energy consumption by approximately 20%.
Long service life: The titanium anode has a long working life and can withstand the corrosion of chlorine and alkali in the chlor-alkali industry using the diaphragm method.
Pollution prevention: It can overcome the dissolution problems of graphite anodes and lead anodes, avoiding pollution to the electrolyte and cathode products, and improving product quality.
Increased current density: Taking the chlor-alkali production by the diaphragm method as an example, the current density of graphite electrodes is 8 A/m², while titanium anodes can double it to 17 A/m². Under the same electrolysis plant and electrolytic cell conditions, the output can be doubled.
Strong corrosion resistance: It can operate normally in many strongly corrosive and special electrolyte media.
Prevention of short circuits: It can avoid short circuits caused by the deformation of lead anodes, thereby improving current efficiency.
Reusability of the base material: The titanium base material can be reused, further saving costs.
Application fields cover chlor-alkali industry, chlorine dioxide production, chlorate industry, hypochlorite industry, perchlorate production, hospital wastewater treatment, persulfate production, disinfection of food utensils, ionized water production, and many other fields.
3. Superiority of Tantalum-Iridium-Titanium Anode Plates
Low oxygen overpotential: When extracting metals through electrolysis in sulfuric acid solution, oxygen is released at the anode. The tantalum-iridium coated titanium electrode has a low oxygen overpotential and is not corroded by the electrolyte.
Outstanding electrolytic durability: The iridium oxide coating demonstrates excellent electrolytic durability. The initial anode potential is 1.51V, and after 6000 hours, it rises to 1.64V, with a coating weight loss of 0mg/M².
Obvious comparative advantages: In electrolytic production, lead-based alloy electrodes (containing 6% to 15% Sb or 1% Ag) have lead anodes that dissolve, consuming anode material and reducing service life. Dissolved lead also precipitates on the cathode, increasing lead impurities in the metal and lowering product quality. Ruthenium-based coatings are severely damaged under these conditions and are not suitable for use. Their initial anode potential is 1.48V, rising to 2.0V after 1000 hours, and the anode has become passivated.
Application fields: Suitable for electrolytic production of non-ferrous metals, disinfection of food utensils, production of electrolytic silver catalysts, treatment of dyeing and finishing wastewater in woolen mills, electrolytic production of copper foil, galvanizing of steel plates, chromium plating, recovery of mercury by electrolytic oxidation, rhodium plating, palladium plating, gold plating, water electrolysis, molten salt electrolysis, battery production, cathodic protection, production of ionized water, printed circuit boards, and many other industries.
4. Superiority of Iridium-Tin-Titanium Anode Plates
High current efficiency: It has a high current efficiency in chlorine evolution or oxygen evolution environments.
Excellent corrosion resistance: It can effectively resist corrosion and ensure the long-term stable use of the electrode.
Long service life: The electrode has a long service life and reduces the frequency of replacement.
Flexible specifications and dimensions: The specifications and dimensions of the electrode can be designed according to the user's requirements.
Reusability of the base: The electrode base can be reused multiple times, reducing the cost of use.
No medium pollution: It does not pollute the medium, ensuring the safety and environmental protection of the production process.
Application fields
It is mainly applied in the chlor-alkali industry, aluminum foil and copper foil industries, industrial wastewater treatment, ion water production, electrochemical treatment and organic electrochemical synthesis of organic substances, electrolytic purification treatment of gases, seawater desalination, regeneration and recycling of oxidants, and other fields.
The titanium anode production factory is in China
We are engaged in the research and production of coated titanium electrodes, which are suitable for coating formulas used in the electrolysis of various aqueous solutions. The products include multi-oxide hybrid-coated titanium electrodes with Ru, Ir, Pd, Pt, Ta, Sn, Bi and Mn as the main components.