Stainless Steel Fiber
Stainless steel fiber refers to thin strands or filaments made of stainless steel, which is a corrosion-resistant alloy composed primarily of iron, chromium, nickel, and other elements. Stainless steel fibers are often used in various applications due to their unique properties.
|Composition||37% stainless steel fiber, 63% polyester|
|Surface Resistivity||< 30 Ohm/sq|
|Shielding Effectiveness||> 48 dB / 99.99% (10MHz-3GHz)|
Textiles: Stainless steel fiber can be incorporated into fabrics for various applications, including protective clothing, industrial textiles, and high-temperature textiles.
Filtration: Stainless steel fibers are used in filter media for applications such as air filtration, liquid filtration, and gas filtration, where corrosion resistance and durability are required.
Reinforcement: Stainless steel fibers can be used as reinforcement materials in composites to enhance mechanical properties and resistance to temperature and corrosion.
Electrical Components: Stainless steel fibers are employed in electrical components, including conductive textiles, gaskets, connectors, and EMI/RFI shielding.
Aerospace and Automotive: Stainless steel fibers are utilized in aerospace and automotive applications where corrosion resistance, high strength, and thermal conductivity are required, such as in heat shields, exhaust systems, and brake pads.
Construction: Stainless steel fibers can be added to concrete or cementitious materials to improve their strength, durability, and resistance to cracking.
Heat Insulation: Stainless steel fibers can be used in insulation materials to enhance heat resistance and thermal conductivity.
Anti-static Applications: Stainless steel fibers find use in anti-static textiles, flooring, and materials that require static dissipation.
Corrosion Resistance: Stainless steel fiber is highly resistant to corrosion, making it suitable for applications in corrosive environments.
High Strength: Stainless steel fibers possess high tensile strength, providing durability and structural integrity.
Thermal Conductivity: Stainless steel fiber has relatively high thermal conductivity, allowing for efficient heat transfer and dissipation.
Electrical Conductivity: Stainless steel fiber exhibits good electrical conductivity, making it suitable for applications requiring electrical conductivity or electromagnetic shielding.
Heat Resistance: Stainless steel fiber can withstand high temperatures without significant deformation or degradation.
Flexibility: Stainless steel fibers can be produced in various forms, allowing for flexibility in their application and integration into different materials.
Anti-static Properties: Stainless steel fibers can have anti-static properties, making them useful in applications where static electricity needs to be controlled or dissipated.