The multi-layer titanium mesh sintered plates for electrolysis

Product Details

The multi-layer titanium mesh sintered plates made from expanded titanium mesh with varying pore sizes are a novel material extensively employed in the electrolysis and filtration industries. These plates find wide-ranging applications, including electrolytic hydrogen and oxygen production, as well as electrolyte filtration and circulation.

The multi-layer titanium mesh sintered plates possess remarkable attributes such as exceptional filtration performance, corrosion resistance, and mechanical strength. These qualities position them as vital components within the electrolysis process, enhancing productivity, product quality, while simultaneously reducing energy consumption and maintenance costs.

Technical Specifications

Material: Grade 1 Titanium (Ti)
Size: 50x50mm
Thickness: 2.0mm
Manufacturing Technique: Sintering multiple layers of Ti expanded mesh with different pore sizes

Key Features

High-Temperature Stability: The multi-layer titanium mesh sintered plates exhibit excellent stability even in high-temperature electrolysis environments. They withstand the heat generated by electrolysis reactions and high-temperature electrolytes without deforming or compromising performance.

Excellent Electrical Conductivity: Due to their composition of titanium, these plates possess excellent electrical conductivity. This property facilitates efficient current transmission during electrolysis, ensuring smooth progress of the reaction.

Adjustable Pore Structure: The pore structure of the multi-layer titanium mesh sintered plates can be customized based on specific requirements. By controlling the sintering process and arrangement of titanium wire mesh, plates with diverse pore sizes and porosity can be achieved to suit various electrolyte and filtration needs.

Longevity and Durability: Crafted from high-quality titanium material, these plates exhibit exceptional corrosion resistance and durability. They deliver prolonged and stable performance, minimizing the need for frequent replacement or maintenance, thereby reducing production costs.

Applications

Electrolytic Hydrogen Production: Multi-layer titanium mesh sintered plates play a crucial role in electrolytic hydrogen production. They serve as separator membranes between the anode and cathode in electrolyzers, efficiently enabling the separation of hydrogen and oxygen. This enhances hydrogen production efficiency and reduces energy consumption.

Electrolytic Oxygen Production: In industries like chemicals and steel manufacturing, multi-layer titanium mesh sintered plates are employed in electrolytic oxygen production. They effectively separate oxygen from other gases, providing a pure oxygen supply to meet production requirements.

Electrolyte Filtration: These plates serve as electrolyte filters, removing solid particles and impurities from the electrolyte. This ensures the purity of the electrolyte, contributing to stable and efficient electrolysis processes.

Electrolyte Circulation: For electrolysis, the multi-layer titanium mesh sintered plates function as filters for circulating fluids within the electrolytic cell. They effectively filter out suspended solids and impurities in the electrolyte, maintaining its cleanliness and extending the lifespan of the electrolytic cell.