BS EN 4807:2017
Aerospace series. Flange couplings. Weld coupling, 90° elbow, in heat resisting steel. Inch series
| Standard number: | BS EN 4807:2017 |
| Pages: | 10 |
| Released: | 2017-06-26 |
| ISBN: | 978 0 580 95338 5 |
| Status: | Standard |
BS EN 4807:2017
This standard BS EN 4807:2017 Aerospace series. Flange couplings. Weld coupling, 90° elbow, in heat resisting steel. Inch series is classified in these ICS categories:
- 49.080 Aerospace fluid systems and components
BS EN 4807:2017 Aerospace Series: Flange Couplings
Weld Coupling, 90° Elbow, in Heat Resisting Steel - Inch Series
Introducing the BS EN 4807:2017, a pivotal standard in the aerospace industry, specifically designed for flange couplings. This standard is essential for professionals seeking to ensure the highest quality and reliability in aerospace applications. Released on June 26, 2017, this document is a comprehensive guide that spans 10 pages, providing detailed specifications and guidelines for the use of weld couplings with a 90° elbow, crafted from heat-resisting steel.
Standard Number: BS EN 4807:2017
ISBN: 978 0 580 95338 5
Status: Standard
Why Choose BS EN 4807:2017?
The aerospace industry demands precision, durability, and reliability. The BS EN 4807:2017 standard is meticulously crafted to meet these demands, ensuring that flange couplings used in aerospace applications are of the highest quality. Here are some reasons why this standard is indispensable:
- Precision Engineering: The standard provides detailed specifications for weld couplings, ensuring precise engineering and compatibility with existing aerospace systems.
- Heat Resistance: Made from heat-resisting steel, these couplings are designed to withstand extreme temperatures, making them ideal for high-stress aerospace environments.
- Reliability: Adhering to this standard ensures that the components used in aerospace applications are reliable and meet stringent safety requirements.
- Comprehensive Guidelines: With 10 pages of detailed information, this standard offers comprehensive guidelines for the implementation and use of flange couplings in aerospace systems.
Applications of BS EN 4807:2017
The BS EN 4807:2017 standard is applicable in various aerospace applications where flange couplings are required. Its use is critical in ensuring the integrity and performance of aerospace systems. Some of the key applications include:
- Aerospace Manufacturing: Ensures that components meet the necessary specifications for manufacturing high-performance aerospace vehicles.
- Maintenance and Repair: Provides guidelines for the maintenance and repair of existing aerospace systems, ensuring continued reliability and safety.
- Research and Development: Aids in the development of new aerospace technologies by providing a reliable standard for component design and testing.
Technical Specifications
The BS EN 4807:2017 standard is part of the inch series, which is crucial for compatibility with existing systems that use imperial measurements. The 90° elbow design is specifically engineered to facilitate efficient fluid and gas flow, reducing turbulence and enhancing system performance.
The use of heat-resisting steel in the construction of these couplings ensures that they can withstand the high temperatures often encountered in aerospace applications. This material choice not only enhances durability but also ensures that the couplings maintain their integrity under extreme conditions.
Conclusion
In the demanding field of aerospace, where precision and reliability are paramount, the BS EN 4807:2017 standard stands out as an essential resource. Whether you are involved in manufacturing, maintenance, or research and development, this standard provides the guidelines necessary to ensure that your flange couplings meet the highest standards of quality and performance.
By adhering to the BS EN 4807:2017 standard, you are not only ensuring compliance with industry regulations but also contributing to the safety and efficiency of aerospace operations. Invest in quality and reliability with this indispensable standard.
