High-strength structural steels

High-strength structural steels

  • Structural steels with a yield strength exceeding 355 MPa.
  • Typical yield strength values range between 500 MPa and 1300 MPa.
  • Impact toughness requirement: no less than 27J at -40°C.
  • Advantage: allows for lighter construction without compromising strength compared to conventional structural steels.

Design considerations for high-strength steels

  • Elastic deflection.
  • Increased fracture risk with thinner dimensions.
  • Geometric irregularities and weld seam placement to reduce fatigue fracture risk.

Distinction between high-strength and ultra-high-strength steels

Lies in the microstructural differences.

Ultra-high-strength structural steel in plate form

  • After rolling, plates undergo controlled tempering with rapid cooling to direct phase transformation.
  • Categorized by microstructure: dual-phase, complex-phase, multi-phase, TRIP, martensite, and press-hardened steel.

Weight savings with ultra-high-strength steels

  • Used in structures requiring weight reduction without compromising strength.
  • Examples: automotive safety components like B-pillar reinforcements, side-impact beams, and bumpers.

Applications

  • Crane arms.
  • Mining and construction equipment.
  • Bridge structures.
  • Agricultural machinery.
Euronom Form Material Swedish Standard W.Stoff
S960QL Plate High-strength steel ~Weldox 960® 1.8933
S890QL Plate High-strength steel ~Weldox 900® 1.8983
S690QL / S690QL1 Plate, Forgings High-strength steel ~Weldox 700® 1.8928 / 1.8988