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>BSI Standards >49 AIRCRAFT AND SPACE VEHICLE ENGINEERING>49.025 Materials for aerospace construction>49.025.10 Steels>BS EN 3359:2025 Aerospace series. Steel X3CrNiMoAl13-8-2 (1.4534). Vacuum induction melted and consumable electrode remelted. Softened. Forging stocks. a or D ≤ 300 mm
immediate downloadReleased: 2025-09-17
BS EN 3359:2025 Aerospace series. Steel X3CrNiMoAl13-8-2 (1.4534). Vacuum induction melted and consumable electrode remelted. Softened. Forging stocks. a or D ≤ 300 mm

BS EN 3359:2025

Aerospace series. Steel X3CrNiMoAl13-8-2 (1.4534). Vacuum induction melted and consumable electrode remelted. Softened. Forging stocks. a or D ≤ 300 mm

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Standard number:BS EN 3359:2025
Pages:12
Released:2025-09-17
ISBN:978 0 539 32124 1
Status:Standard
BS EN 3359:2025 - Aerospace Series Steel

BS EN 3359:2025 - Aerospace Series Steel X3CrNiMoAl13-8-2 (1.4534)

Introducing the BS EN 3359:2025, a pivotal standard in the aerospace industry, specifically designed for the high-performance steel X3CrNiMoAl13-8-2 (1.4534). This standard is essential for professionals seeking to ensure the highest quality and reliability in aerospace applications. Released on September 17, 2025, this document is a must-have for those involved in the production and application of aerospace materials.

Key Features of BS EN 3359:2025

The BS EN 3359:2025 standard provides comprehensive guidelines and specifications for the steel X3CrNiMoAl13-8-2, which is known for its exceptional properties. Here are some of the key features:

  • Material Composition: The steel is composed of a unique blend of elements, including chromium, nickel, molybdenum, and aluminum, which contribute to its superior strength and corrosion resistance.
  • Manufacturing Process: The steel is vacuum induction melted and consumable electrode remelted, ensuring a high level of purity and consistency in the final product.
  • Softened State: The material is provided in a softened state, making it ideal for further processing and customization according to specific aerospace requirements.
  • Forging Stocks: The standard covers forging stocks with a diameter or thickness (a or D) of up to 300 mm, catering to a wide range of aerospace applications.

Why Choose BS EN 3359:2025?

The aerospace industry demands materials that can withstand extreme conditions and perform reliably over time. The BS EN 3359:2025 standard ensures that the steel X3CrNiMoAl13-8-2 meets these rigorous demands. Here are some reasons why this standard is indispensable:

  • Enhanced Durability: The unique composition and manufacturing process of the steel result in enhanced durability, making it suitable for critical aerospace components.
  • Corrosion Resistance: The inclusion of elements like chromium and molybdenum provides excellent resistance to corrosion, a crucial factor in aerospace environments.
  • Versatility: With specifications for forging stocks up to 300 mm, this standard offers versatility for various aerospace applications, from structural components to engine parts.
  • Compliance and Quality Assurance: Adhering to this standard ensures compliance with industry regulations and guarantees the quality and reliability of the final product.

Technical Specifications

The BS EN 3359:2025 standard is a comprehensive document that spans 12 pages, providing detailed specifications and guidelines for the steel X3CrNiMoAl13-8-2. Here are some technical details:

  • Standard Number: BS EN 3359:2025
  • Pages: 12
  • Release Date: September 17, 2025
  • ISBN: 978 0 539 32124 1
  • Status: Standard

Applications in the Aerospace Industry

The steel X3CrNiMoAl13-8-2, as specified in the BS EN 3359:2025 standard, is widely used in the aerospace industry due to its exceptional properties. Here are some of the key applications:

  • Aircraft Structural Components: The high strength and durability of the steel make it ideal for use in critical structural components of aircraft, ensuring safety and performance.
  • Engine Parts: The material's resistance to high temperatures and corrosion makes it suitable for engine parts that operate under extreme conditions.
  • Landing Gear: The toughness and reliability of the steel are crucial for landing gear components, which must withstand significant stress and impact.
  • Spacecraft Components: The steel's properties make it a preferred choice for various components in spacecraft, where reliability and performance are paramount.

Conclusion

The BS EN 3359:2025 standard is an essential resource for professionals in the aerospace industry. It provides detailed specifications for the steel X3CrNiMoAl13-8-2, ensuring that it meets the highest standards of quality and performance. Whether you are involved in the design, manufacturing, or application of aerospace materials, this standard is a valuable tool that will help you achieve excellence in your projects.

Invest in the BS EN 3359:2025 standard today and ensure that your aerospace applications are built on a foundation of quality and reliability.

DESCRIPTION

BS EN 3359:2025


This standard BS EN 3359:2025 Aerospace series. Steel X3CrNiMoAl13-8-2 (1.4534). Vacuum induction melted and consumable electrode remelted. Softened. Forging stocks. a or D ≤ 300 mm is classified in these ICS categories:
  • 49.025.10 Steels
This document specifies the requirements relating to: Steel X3CrNiMoAl13-8-2 (1.4534) Vacuum induction melted and consumable electrode remelted Softened Forging stocks a or D ≤ 300 mm for aerospace applications. NOTE ASD-STAN designation: FE-PM1503 Material number: 1.4534
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