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Homepage>BS Standards>19 TESTING>19.100 Non-destructive testing>BS EN 17501:2022 Non-destructive testing. Thermographic testing. Active thermography with laser excitation
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BS EN 17501:2022 Non-destructive testing. Thermographic testing. Active thermography with laser excitation

BS EN 17501:2022

Non-destructive testing. Thermographic testing. Active thermography with laser excitation

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Standard number:BS EN 17501:2022
Pages:36
Released:2022-08-08
ISBN:978 0 539 12712 6
Status:Standard
BS EN 17501:2022 Non-destructive testing. Thermographic testing. Active thermography with laser excitation

BS EN 17501:2022 Non-destructive testing. Thermographic testing. Active thermography with laser excitation

Standard Number: BS EN 17501:2022

Pages: 36

Released: 2022-08-08

ISBN: 978 0 539 12712 6

Name: Non-destructive testing. Thermographic testing. Active thermography with laser excitation

Status: Standard

Overview

Introducing the BS EN 17501:2022, a comprehensive standard dedicated to non-destructive testing through thermographic testing, specifically focusing on active thermography with laser excitation. This standard is an essential resource for professionals in the field of non-destructive testing (NDT), providing detailed guidelines and methodologies to ensure accurate and reliable results.

Key Features

  • Comprehensive Coverage: Spanning 36 pages, this standard offers in-depth information and guidelines on active thermography with laser excitation.
  • Latest Release: Published on August 8, 2022, ensuring the most up-to-date practices and technologies are covered.
  • ISBN: 978 0 539 12712 6, making it easy to reference and locate in libraries and databases.
  • Professional Standard: Recognized as a standard, ensuring it meets the rigorous requirements and quality expected in the industry.

Why Choose BS EN 17501:2022?

The BS EN 17501:2022 standard is designed to provide a robust framework for conducting thermographic testing using laser excitation. This method is highly effective for identifying and analyzing defects in materials without causing any damage. Here are some reasons why this standard is indispensable:

  • Precision and Accuracy: The guidelines ensure that tests are conducted with the highest level of precision, leading to accurate and reliable results.
  • Non-destructive Method: Active thermography with laser excitation is a non-invasive technique, preserving the integrity of the tested materials.
  • Versatility: Applicable across various industries, including aerospace, automotive, and manufacturing, making it a versatile tool for quality assurance and maintenance.
  • Enhanced Detection: The use of laser excitation enhances the detection capabilities, allowing for the identification of even the smallest defects.

Applications

The BS EN 17501:2022 standard is suitable for a wide range of applications, including but not limited to:

  • Aerospace Industry: Ensuring the structural integrity of aircraft components.
  • Automotive Industry: Detecting defects in critical parts to ensure safety and performance.
  • Manufacturing: Quality control and assurance in the production process.
  • Energy Sector: Monitoring and maintaining the integrity of infrastructure and equipment.

Benefits

Adopting the BS EN 17501:2022 standard offers numerous benefits, including:

  • Improved Safety: By identifying defects early, potential failures can be prevented, enhancing overall safety.
  • Cost Savings: Non-destructive testing reduces the need for costly repairs and replacements.
  • Efficiency: Streamlined testing processes lead to faster and more efficient inspections.
  • Compliance: Ensures compliance with industry standards and regulations.

Conclusion

The BS EN 17501:2022 standard is an invaluable resource for professionals involved in non-destructive testing. Its comprehensive guidelines on active thermography with laser excitation provide the tools needed to conduct precise, reliable, and non-invasive inspections. Whether you are in aerospace, automotive, manufacturing, or any other industry that requires rigorous quality control, this standard will help you achieve the highest levels of safety and performance.

Invest in the BS EN 17501:2022 standard today and ensure your testing processes are at the forefront of technology and industry best practices.

DESCRIPTION

BS EN 17501:2022


This standard BS EN 17501:2022 Non-destructive testing. Thermographic testing. Active thermography with laser excitation is classified in these ICS categories:
  • 19.100 Non-destructive testing
This document specifies a method and establishes guidelines for non-destructive testing using active thermography with laser excitation. Active thermography with laser excitation is mainly applicable, but not limited, to different materials (e.g. composites, metals, ceramics) and to: - the detection of surface-breaking discontinuities, particularly cracks; - the detection of discontinuities located just below the surface or below coatings with an efficiency that diminishes rapidly with a few mm depth; - the detection of disbonds and delamination parallel to the examined surface; - the measurement of thermal material properties, like thermal diffusivity; - the measurement of coating thickness. The requirements for the equipment, for the verification of the system, for the surface condition of the test object, for the scanning conditions, for the recording, the processing and the interpretation of the results are specified. This document does not apply to the definition of acceptance criteria. Active thermography with laser excitation can be applied in industrial production as well as in maintenance and repair (vehicle parts, engine parts, power plant, aerospace, etc.).