About 316L Electro Polish Wire

316L electro polish wire is a stainless steel wire variant renowned for its enhanced corrosion resistance and smooth surface finish. Ideal for pharmaceutical, food, medical, and marine applications, it ensures hygiene and durability in demanding environments, meeting stringent quality standards.

316L Electro Polish Wire chemical compositions

The chemical composition of 316L electro polish wire typically includes:

• Chromium (Cr): 16-18%
• Nickel (Ni): 10-14%
• Molybdenum (Mo): 2-3%
• Carbon (C): 0.03% maximum
• Manganese (Mn): 2% maximum
• Silicon (Si): 1% maximum
• Phosphorus (P): 0.045% maximum
• Sulfur (S): 0.03% maximum
• Iron (Fe): Balance

This composition ensures high corrosion resistance and surface finish suitable for various industrial applications.

316L Electro Polish Wire physical properties

The physical properties of 316L electro polish wire include:

1. Density: Approximately 8.00 g/cm³.
2. Melting Point: Around 1370-1400°C (2500-2550°F).
3. Tensile Strength: Typically ranging from 485 to 620 MPa (70,000 to 90,000 psi).
4. Elongation: Usually between 40% to 60%.
5. Hardness: Varies depending on processing, typically 95-105 HRB (Rockwell B Hardness).
6. Electrical Conductivity: Moderate due to its metallic nature.
7. Thermal Conductivity: Relatively high for effective heat dissipation.
8. Magnetic Properties: Generally non-magnetic after annealing, may exhibit slight magnetism after cold working.

These properties make 316L electro polish wire suitable for various industries requiring corrosion resistance, hygiene, and durability.

316L Electro Polish Wire mechanical properties

The mechanical properties of 316L electro polish wire typically include:

1. Tensile Strength: Typically ranging from 485 to 620 MPa (70,000 to 90,000 psi). This measures the maximum amount of tensile (stretching) stress a material can withstand before breaking.
2. Yield Strength: Typically around 170 to 310 MPa (25,000 to 45,000 psi). This is the stress at which a material begins to deform plastically without any increase in the load.
3. Elongation: Usually between 40% to 60%. This measures the percentage increase in length a material can undergo before breaking under tension.
4. Modulus of Elasticity: Around 193 GPa (28 x 10^6 psi). This represents the stiffness or rigidity of the material; it measures the amount of deformation a material experiences in response to an applied force.
5. Hardness: Typically in the range of 95 to 105 HRB (Rockwell Hardness B). This indicates the resistance of the material to indentation or scratching.

These mechanical properties ensure that 316L electro polish wire can withstand various mechanical stresses while maintaining its integrity and surface finish, making it suitable for demanding applications in industries such as pharmaceuticals, food processing, and medical equipment manufacturing.

316L Electro Polish Wire Applications

316L electro polish wire finds diverse applications across several industries, including:

1. Pharmaceutical: Used in equipment fabrication for its corrosion resistance and hygiene standards compliance.
2. Food Processing: Ideal for manufacturing machinery and storage units due to its smooth surface and resistance to corrosion.
3. Medical: Employed in medical instruments and implants for its biocompatibility and corrosion resistance.
4. Marine: Utilized in marine equipment and structures due to its resistance to saltwater corrosion.
5. Chemical Processing: Suitable for use in corrosive environments such as chemical reactors and pipelines.
6. Aerospace: Used in aerospace components where corrosion resistance and strength are crucial.
7. Automotive: Applications include exhaust systems and fuel lines where corrosion resistance is required.
8. Electronics: Utilized in the production of connectors and housings due to its conductivity and corrosion resistance.
9. Architectural: Used in architectural applications like handrails and facades due to its durability and aesthetic appeal.