Stainless Steel 310 Wires

Grades

Stainless Steel 310 Wires

Stainless Steel 310S Wires are ordered in planes, called lattices, which penetrate one another in specific ways. For Stainless Steel 310 Wire, the lattice arrangement can best be visualized by a unit cube with eight iron atoms at its corners. Important for the uniqueness of steel is the allotropy of iron — that is, its existence in two crystalline forms. In the body – centred cubic (bcc) arrangement, there is an additional iron atom in Stainless Steel 310S Wire. This means that there is more space in the fcc than in the bcc structure to keep foreign (i.e., alloying) atoms of Stainless Steel 310 Coil Wires in solid solution. Stainless Steel 310S Wires is significant that the sides of the face-centred cube, or the distances between neighbouring lattices in the fcc arrangement, are about 25 percent larger than in the bcc arrangement. We supply our customers with the highest level of SS 310 Wires.

Stainless Steel 310 Wires

Stainless Steel 310 Wires are commonly used in various applications, thanks to their high-temperature resistance and corrosion resistance. Here’s some information about Stainless Steel 310 Wires:

Composition:

  • Stainless Steel 310 primarily consists of:
    • Chromium (Cr): Approximately 24-26%
    • Nickel (Ni): Approximately 19-22%
    • Iron (Fe): Makes up the balance of the alloy
  • It also contains a small amount of manganese and silicon.

Key Features:

  • High Temperature Resistance: Stainless Steel 310 is known for its exceptional resistance to high temperatures, making it suitable for applications in heat treatment furnaces, exhaust systems, and other high-temperature industrial settings.
  • Corrosion Resistance: It provides good resistance to oxidation and sulfidation at elevated temperatures and moderate resistance to corrosion in various environments.
  • Strength: Stainless Steel 310 has good mechanical properties, including high tensile strength.

Applications: Stainless Steel 310 Wires find use in a range of applications, including but not limited to:

  • Heating Elements: Used in electrical heating elements due to its high-temperature resistance.
  • Wire Mesh: Used for filters and screens in corrosive and high-temperature environments.
  • Construction: Used in construction applications where corrosion resistance is needed.
  • Manufacturing: Used in the production of industrial equipment, fasteners, and wire-based components.

Forms: Stainless Steel 310 Wires are available in various forms, including round wires, flat wires, and custom profiles, to meet different industrial needs.

Standards: Stainless Steel 310 Wires conform to industry standards and specifications to ensure quality and performance in demanding applications. Common standards include ASTM A580 for stainless steel wire.

Surface Finish: The surface finish of these wires can vary, with options like annealed, bright, or specialized finishes based on the intended application.

When using Stainless Steel 310 Wires, it’s essential to choose the appropriate form and size for your specific requirements and follow proper fabrication and welding procedures to maintain the material’s corrosion resistance and mechanical properties.

Specifications

Specifications – ASTM A580 ASME SA580 / ASTM A313 ASME SA313
Dimensions – ASTM, ASME
Diameter – 0.50 to 16mm
Specialize – Wire, Coil Wire

Material Certification and Traceability

At Satyam Overseas, we prioritize Material Certification and Traceability. Our materials, meeting ASTM and ASME standards, come with 3.1 Mill Test Certificates as a guarantee of compliance. Additionally, upon request, we provide 3.2 Mill Test Certificates for added assurance. Every material is clearly marked and accompanied by a corresponding certificate, meticulously linking markings to certification. This meticulous approach ensures complete accountability and unwavering reliability throughout our supply chain.

Chemical Composition

Element Chromium (Cr) Nickel (Ni) Iron (Fe) Manganese (Mn) Silicon (Si) Carbon (C) Phosphorus (P)
Composition Range
24.0 - 26.0%
19.0 - 22.0%
Balance
≤ 2.00%
≤ 1.50%
≤ 0.08%
≤ 0.045%

physical properties

Property Density Melting Range Specific Heat Capacity Thermal Conductivity Electrical Resistivity
Value
7.9 g/cm³
1402 - 1449°C (2556 - 2630°F)
0.50 J/g°C (0.12 Btu/lb°F)
14.2 W/m·K (9.7 Btu·in/ft²·h·°F)
0.78 μΩ·m (77 μΩ·in)
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