Made of stainless steel 316L material, the woven mesh anode offers excellent corrosion resistance and mechanical strength, making it well-suited for harsh environments. The anode is created by weaving stainless steel 316L wire into a mesh structure, which provides a larger surface area for enhanced electrochemical reactivity and improved mass transfer between the anode and electrolyte. Additionally, the woven wire mesh anode ensures efficient air permeability and fluid channels, enabling uniform electrolyte distribution and preventing air bubble accumulation.
Stainless steel 316L woven mesh anodes find widespread applications in electrolytic processing, electrochemical corrosion protection, wastewater treatment, battery manufacturing, and more. They serve as anode substrates or current collectors, facilitating electrochemical reactions. Moreover, industries such as petrochemical, chemical, and marine engineering utilize these anodes for anti-corrosion and filtration purposes.
Type: woven
Used in electrolysis
The key advantages of stainless steel 316L woven mesh anodes include:
1. Corrosion resistance: Stainless steel 316L exhibits exceptional resistance to corrosive media like acids, alkaline substances, and chlorides, ensuring long-term stability.
2. Mechanical strength: With its robust mechanical strength, stainless steel 316L can withstand high pressure and tension conditions.
3. Good electrical conductivity: The anodes' excellent electrical conductivity enables efficient transfer of electric current and charges necessary for electrochemical reactions.
4. High-temperature stability: Stainless steel 316L maintains stability in high-temperature environments, expanding its usability.
In conclusion, Stainless steel 316L woven mesh anodes offer a dependable and durable solution for various corrosion protection and electrochemical applications. They provide reliable electrochemical reaction and mass transfer performance, making them an ideal choice for diverse industries.
