2.6mm 302 Paslanmaz Çelik Yay Teli

Diğer Videolar
July 01, 2025
Kategori Bağlantısı: Paslanmaz Çelik Yay Teli
Kısa: Discover the DIN Standard 2.6mm 302 Stainless Steel Spring Wire, featuring a tensile strength of 1450-1700N/mm2. This high-quality wire is part of the 200/300/400 series, offering excellent corrosion resistance, ductility, and ease of fabrication. Ideal for various industrial applications, it meets JIS G4314 standards.
İlgili Ürün Özellikleri:
  • Made from 302 stainless steel, a variation of the 18% chromium / 8% nickel austenitic alloy.
  • Features a tensile strength of 1450-1700N/mm2, ensuring durability and reliability.
  • Non-magnetic and not hardenable by heat treatment, suitable for annealed condition use.
  • Excellent corrosion resistance to moderately oxidizing and reducing environments.
  • High ease of fabrication and formability, making it versatile for various applications.
  • Meets JIS G4314 standards, ensuring quality and compliance with international norms.
  • Can be cold worked to increase hardness, though post-fabrication annealing is recommended.
  • Suitable for welding by resistance or shielded fusion methods for strong joints.
Sorular:
  • What are the key properties of 302 stainless steel spring wire?
    302 stainless steel spring wire is a tough, ductile grade with excellent corrosion resistance, non-magnetic properties, and high ease of fabrication. It has a tensile strength of 1450-1700N/mm2 and meets JIS G4314 standards.
  • How does 302 stainless steel perform in corrosive environments?
    302 stainless steel provides useful resistance to a wide range of moderately oxidizing to moderately reducing environments. Its 18-19% chromium content offers resistance to oxidizing environments, while 9-11% nickel enhances resistance to reducing environments.
  • What are the recommended welding methods for 302 stainless steel spring wire?
    302 stainless steel spring wire is best welded by resistance or shielded fusion methods. Post-weld annealing is recommended to dissolve chromium carbide and maximize resistance to intergranular attack.