BS EN ISO 32679:2025 - Non-destructive Testing Standard

Introducing the BS EN ISO 32679:2025, a comprehensive standard dedicated to the field of non-destructive testing, specifically focusing on radiographic testing. This standard is an essential resource for professionals in the industry, providing detailed guidelines for the determination of the size of industrial radiographic gamma sources. Released on October 7, 2025, this document is a must-have for ensuring precision and accuracy in radiographic testing processes.

Key Features of BS EN ISO 32679:2025

This standard is meticulously crafted to cater to the needs of professionals involved in non-destructive testing. Here are some of the key features that make this standard indispensable:

• Standard Number: BS EN ISO 32679:2025
• Pages: 14
• Release Date: October 7, 2025
• ISBN: 978 0 539 36484 2
• Status: Standard

Why Choose BS EN ISO 32679:2025?

The BS EN ISO 32679:2025 standard is designed to enhance the quality and reliability of radiographic testing by providing a structured approach to determining the size of industrial radiographic gamma sources. Here are some reasons why this standard is a valuable addition to your professional toolkit:

1. Comprehensive Guidelines

This standard offers a detailed framework for conducting radiographic testing, ensuring that all procedures are carried out with precision and accuracy. The guidelines are designed to help professionals achieve consistent results, minimizing errors and enhancing the overall quality of testing.

2. Industry Relevance

As a standard that is recognized globally, BS EN ISO 32679:2025 is aligned with the latest industry practices and technological advancements. This ensures that your testing methods are up-to-date and in compliance with international standards, giving you a competitive edge in the field.

3. Enhanced Safety

Safety is paramount in any testing environment, and this standard emphasizes the importance of safe practices when handling radiographic gamma sources. By adhering to the guidelines outlined in this document, you can ensure a safer working environment for yourself and your colleagues.

4. Improved Efficiency

With clear instructions and well-defined procedures, this standard helps streamline the testing process, reducing the time and effort required to achieve accurate results. This efficiency not only saves time but also reduces costs associated with testing.

Who Should Use This Standard?

The BS EN ISO 32679:2025 standard is ideal for a wide range of professionals involved in non-destructive testing, including:

• Quality Assurance Managers
• Radiographic Testing Technicians
• Safety Officers
• Industrial Engineers
• Research and Development Teams

Conclusion

In the ever-evolving field of non-destructive testing, staying ahead of the curve is crucial. The BS EN ISO 32679:2025 standard provides the tools and knowledge necessary to excel in radiographic testing, ensuring that your methods are both effective and compliant with international standards. With its comprehensive guidelines and focus on safety and efficiency, this standard is an invaluable resource for any professional committed to excellence in their field.

Equip yourself with the BS EN ISO 32679:2025 standard and take your radiographic testing capabilities to the next level. Embrace the future of non-destructive testing with confidence and precision.

BS EN ISO 32679:2025

This standard BS EN ISO 32679:2025 Non-destructive testing. Radiographic testing. Determination of the size of industrial radiographic gamma sources is classified in these ICS categories:

• 19.100 Non-destructive testing

This document specifies a test procedure for determination of the size of industrial radiographic gamma sources of 0,5 mm or greater, made from the radionuclides Iridium 192, Ytterbium 169, Selenium 75 or Cobalt 60, by a radiography method with X-rays. The source size of a gamma radiation source is an important factor which affects the image quality of gamma ray images. The source size is determined with an accuracy of ±10 % but typically not better than ±0,1 mm. The source size is provided by the manufacturer as the mechanical dimension of the source insert. A measurement can be required if the manufacturing process is validated or monitored after implementation of the source into the holder. This document can be used for other radionuclides after validation. The standard test method ASTM E1114 provides further information on the measurement of the Ir-192 source size, the characterization of the source shape, and its correct assembly and packaging.