BS EN ISO 10893-9:2011+A1:2020
Non-destructive testing of steel tubes Automated ultrasonic testing for the detection of laminar imperfections in strip/plate used for the manufacture of welded steel tubes
Standard number: | BS EN ISO 10893-9:2011+A1:2020 |
Pages: | 16 |
Released: | 2020-07-27 |
ISBN: | 978 0 539 05480 4 |
Status: | Standard |
BS EN ISO 10893-9:2011+A1:2020
Non-destructive Testing of Steel Tubes: Automated Ultrasonic Testing for the Detection of Laminar Imperfections
In the world of steel manufacturing, ensuring the integrity and quality of materials is paramount. The BS EN ISO 10893-9:2011+A1:2020 standard is a crucial document for professionals in the field, providing comprehensive guidelines for non-destructive testing of steel tubes. This standard focuses on automated ultrasonic testing, a cutting-edge technique used to detect laminar imperfections in strips and plates that are essential for the manufacture of welded steel tubes.
Key Features of the Standard
- Standard Number: BS EN ISO 10893-9:2011+A1:2020
- Pages: 16
- Released: 2020-07-27
- ISBN: 978 0 539 05480 4
- Status: Standard
Why This Standard is Essential
The BS EN ISO 10893-9:2011+A1:2020 standard is indispensable for manufacturers and quality assurance professionals who are involved in the production of welded steel tubes. The automated ultrasonic testing method outlined in this standard is designed to identify laminar imperfections, which can significantly affect the structural integrity and performance of steel tubes. By adhering to this standard, manufacturers can ensure that their products meet the highest quality and safety standards.
Understanding Automated Ultrasonic Testing
Automated ultrasonic testing is a non-destructive testing method that uses high-frequency sound waves to detect imperfections within materials. This technique is particularly effective for identifying laminar imperfections, which are planar defects that can occur within the material. The use of automated systems enhances the accuracy and efficiency of the testing process, allowing for rapid and reliable detection of defects.
Benefits of Using This Standard
Implementing the guidelines of the BS EN ISO 10893-9:2011+A1:2020 standard offers numerous benefits, including:
- Enhanced Quality Control: By detecting imperfections early in the manufacturing process, companies can prevent defective products from reaching the market.
- Increased Safety: Ensuring the structural integrity of steel tubes reduces the risk of failures in critical applications, enhancing overall safety.
- Cost Efficiency: Early detection of defects can lead to significant cost savings by reducing waste and minimizing the need for costly repairs or replacements.
- Compliance with International Standards: Adhering to this standard ensures compliance with international quality and safety regulations, facilitating global trade and market access.
Who Should Use This Standard?
This standard is designed for a wide range of professionals in the steel manufacturing industry, including:
- Quality Assurance Managers
- Production Engineers
- Non-destructive Testing Technicians
- Research and Development Teams
- Compliance Officers
Conclusion
The BS EN ISO 10893-9:2011+A1:2020 standard is a vital resource for ensuring the quality and safety of welded steel tubes. By providing detailed guidelines for automated ultrasonic testing, this standard helps manufacturers detect and address laminar imperfections, ultimately leading to superior products and enhanced customer satisfaction. Whether you are involved in production, quality assurance, or compliance, this standard is an essential tool for achieving excellence in steel tube manufacturing.
BS EN ISO 10893-9:2011+A1:2020
This standard BS EN ISO 10893-9:2011+A1:2020 Non-destructive testing of steel tubes is classified in these ICS categories:
- 23.040.10 Iron and steel pipes
- 77.040.20 Non-destructive testing of metals
- 77.140.75 Steel pipes and tubes for specific use
This part of ISO 10893 specifies requirements for the automated ultrasonic testing of strip/plate used in the manufacture of welded tubes for the detection of laminar imperfections carried out in the pipe mill before or during pipe production.
NOTE 1 For welded tubes, an alternative ultrasonic testing specification for the detection of laminar imperfections is available, which can be applied, at the discretion of the manufacturer, by ultrasonic testing of the tubes subsequent to seam welding according to ISO 10893‑8.
NOTE 2 By agreement between the purchaser and manufacturer, the requirements of this part of ISO 10893 can be applied on strips/plates of SAW tubes in the pipe form after seam welding.
This part of ISO 10893 can also be applicable to the testing of strips/plates used in the manufacture of circular hollow sections.