1.4mm Thickness Multi-layer (3 layers) Titanium Mesh for Electrolyzer

1.4mm Thickness Multi-layer (3 layers) Titanium Mesh for Electrolyzer

 https://www.toptitech.com/microporous-filter-components/1-4mm-thickness-multi-layer-3-layers-titanium.html

TOPTITECH's 1.4mm Thickness Multi-layer (3 layers) Titanium Mesh for Electrolyzer features a multi-layer design, each meticulously crafted layer offers superior strength, corrosion resistance, and conductivity. The optimized thickness of 1.4mm strikes the perfect balance between structural integrity and efficient electrolysis, ensuring uniform current distribution and minimizing energy loss.

Crafted with precision, TOPTITECH's titanium mesh features a multi-layer design, consisting of three distinct layers. Each layer is meticulously engineered to deliver exceptional strength, corrosion resistance, and conductivity. The combination of these layers ensures optimal performance and longevity, even under demanding operating conditions.

Specifications

Material: GR1 titanium

Size: 50x50mm

Pore size:1x2mm, 2x4mm, 0.5x1.5mm

Thickness: 1.4mm, 1mm, 0.9mm

Technique: Sintering

Features

Enhanced Strength and Durability: Our titanium mesh features a multi-layer construction that delivers superior strength and durability. Withstanding high pressures and harsh chemical environments, this mesh offers long-lasting performance, reducing maintenance and replacement costs.

Excellent Conductivity: Crafted from high-quality titanium material, our mesh exhibits excellent conductivity. The multi-layer design ensures uniform current distribution, enhancing electrolysis efficiency and minimizing energy consumption.

Superior Corrosion Resistance: Titanium is renowned for its exceptional corrosion resistance properties. Our titanium mesh withstands various corrosive substances and environments, making it ideal for electrolytic processes involving strong acids, alkalis, and other corrosive media.

Improved Energy Efficiency: Harness the power of energy efficiency with our titanium mesh. Its multi-layer construction and excellent conductivity ensure minimal energy loss during electrolysis, maximizing energy utilization and reducing operational costs. Contribute to sustainable practices while achieving optimal results.

Precise Current Distribution: Achieve precise and uniform current distribution with our titanium mesh. The multi-layer design enhances the flow of electrolytes through the mesh, ensuring consistent and controlled electrochemical reactions. This promotes high product quality and minimizes the risk of uneven deposition or plating.

Sustainable Solution: Embrace sustainability with our titanium mesh. Made from a recyclable material, it offers a greener alternative for your electrolysis processes. Its long lifespan and reduced energy requirements contribute to environmental conservation and align with your eco-conscious goals.

Differences Between Multi-layer Sintered Titanium Mesh and Multi-layer Sintered Stainless Steel Mesh

Multi-layer sintered titanium mesh and multi-layer sintered stainless steel mesh exhibit notable differences in terms of their structure, properties, and applications:

1. Material Characteristics: Multi-layer sintered titanium mesh is manufactured using titanium material, while multi-layer sintered stainless steel mesh is made from stainless steel. Titanium offers excellent corrosion resistance and lightweight properties, making it suitable for corrosive environments and applications that require reduced weight. Stainless steel, on the other hand, is renowned for its high strength, high-temperature resistance, and corrosion resistance, making it suitable for a wider range of applications.

2. Corrosion Resistance: Titanium possesses outstanding corrosion resistance, defending against various chemical substances, including strong acids and alkalis. Stainless steel also offers good corrosion resistance but may be subject to some degree of corrosion in extreme environments.

3. Strength and Hardness: Stainless steel generally exhibits higher strength and hardness compared to titanium. Multi-layer sintered stainless steel mesh boasts higher tensile strength and hardness, making it suitable for applications that require superior mechanical performance.

4. Conductivity: Due to its lower electrical conductivity, stainless steel mesh exhibits relatively poorer conductivity. On the other hand, titanium demonstrates good conductivity, facilitating uniform current distribution.

5. Application Areas: Multi-layer sintered titanium mesh finds wide-ranging applications in chemical processing, water treatment, and electrochemical synthesis, particularly in environments that demand corrosion resistance and lightweight properties. Multi-layer sintered stainless steel mesh is primarily used in high-temperature environments, petrochemical industries, and battery manufacturing, where high strength and high-temperature resistance are critical.