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Homepage>BS Standards>19 TESTING>19.080 Electrical and electronic testing>BS EN IEC 60112:2020 Method for the determination of the proof and the comparative tracking indices of solid insulating materials
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immediate downloadReleased: 2020-12-11
BS EN IEC 60112:2020 Method for the determination of the proof and the comparative tracking indices of solid insulating materials

BS EN IEC 60112:2020

Method for the determination of the proof and the comparative tracking indices of solid insulating materials

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Standard number:BS EN IEC 60112:2020
Pages:28
Released:2020-12-11
ISBN:978 0 580 94727 8
Status:Standard

BS EN IEC 60112:2020 - A Comprehensive Guide to Insulating Material Testing

In the ever-evolving world of electrical engineering and material science, the need for reliable and standardized testing methods is paramount. The BS EN IEC 60112:2020 standard provides a crucial methodology for determining the proof and comparative tracking indices of solid insulating materials. Released on December 11, 2020, this standard is an essential tool for professionals seeking to ensure the safety and reliability of electrical insulation materials.

Understanding the Importance of Insulating Materials

Insulating materials play a vital role in the safety and efficiency of electrical systems. They prevent unwanted current flow, protect against electrical shocks, and ensure the longevity of electrical components. However, not all insulating materials are created equal. Their performance can vary significantly based on their composition and environmental conditions. This is where the BS EN IEC 60112:2020 standard comes into play, offering a reliable method to assess the quality and performance of these materials.

Key Features of BS EN IEC 60112:2020

  • Standard Number: BS EN IEC 60112:2020
  • Pages: 28
  • Released: 2020-12-11
  • ISBN: 978 0 580 94727 8
  • Name: Method for the determination of the proof and the comparative tracking indices of solid insulating materials
  • Status: Standard

What Does the Standard Cover?

The BS EN IEC 60112:2020 standard outlines a method for determining two critical indices:

  1. Proof Tracking Index (PTI): This index measures the voltage at which a material can withstand without tracking for a specified time under specified conditions. It is a crucial parameter for assessing the material's resistance to electrical tracking.
  2. Comparative Tracking Index (CTI): This index evaluates the material's ability to resist tracking under wet conditions. It is determined by applying a series of drops of an electrolyte solution to the material's surface and measuring the voltage at which tracking occurs.

These indices are essential for determining the suitability of insulating materials for various applications, particularly in environments where moisture and contaminants are present.

Why Choose BS EN IEC 60112:2020?

The BS EN IEC 60112:2020 standard is a trusted resource for engineers, manufacturers, and quality assurance professionals. Here are some reasons why it is a preferred choice:

  • Comprehensive Methodology: The standard provides a detailed and systematic approach to testing, ensuring consistent and reliable results.
  • International Recognition: As part of the IEC standards, it is recognized and adopted worldwide, facilitating global trade and compliance.
  • Up-to-Date Information: Released in 2020, it incorporates the latest advancements and research in the field of insulating materials.
  • Versatility: Applicable to a wide range of solid insulating materials, making it a versatile tool for various industries.

Applications of BS EN IEC 60112:2020

This standard is invaluable in numerous sectors, including:

  • Electrical and Electronics Manufacturing: Ensuring the safety and reliability of components used in consumer electronics, industrial equipment, and more.
  • Automotive Industry: Evaluating the performance of insulating materials used in vehicles, particularly in electric and hybrid models.
  • Construction: Assessing materials used in building electrical systems to prevent hazards and ensure compliance with safety regulations.
  • Research and Development: Providing a benchmark for developing new insulating materials with enhanced properties.

Conclusion

The BS EN IEC 60112:2020 standard is an indispensable resource for anyone involved in the testing and application of solid insulating materials. Its comprehensive methodology, international recognition, and applicability across various industries make it a cornerstone of electrical safety and material performance assessment. By adhering to this standard, professionals can ensure that their products meet the highest safety and quality standards, ultimately protecting both consumers and the environment.

For those committed to excellence in electrical engineering and material science, the BS EN IEC 60112:2020 standard is not just a guideline—it's a guarantee of quality and reliability.

DESCRIPTION

BS EN IEC 60112:2020


This standard BS EN IEC 60112:2020 Method for the determination of the proof and the comparative tracking indices of solid insulating materials is classified in these ICS categories:
  • 29.035.01 Insulating materials in general
  • 19.080 Electrical and electronic testing
IEC 60112:2020 specifies the method of test for the determination of the proof and comparative tracking indices of solid insulating materials on pieces taken from parts of equipment and on plaques of material using alternating voltage. This document provides a procedure for the determination of erosion when required. This test method evaluates the composition of the material as well as the surface of the material being evaluated. Both the composition and surface condition directly influence the results of the evaluation and are considered when using the results in material selection process. Test results are not directly suitable for the evaluation of safe creepage distances when designing electrical apparatus. This basic safety publication focusing on a safety test method is primarily intended for use by technical committees in the preparation of safety publications in accordance with the principles laid down in IEC Guide 104 and lSO/lEC Guide 51. This edition includes the following significant technical changes with respect to the previous edition:
  • Introduction of a new contaminant, solution C with a surfactant aligned with the test method of IEC 60587. The definition of the solution B was transferred to Annex B for backward reference.
  • Introduction of a screening test, considering the fact that some materials can withstand high test voltages, but fail at lower test voltages.
It has the status of a basic safety publication in accordance with IEC Guide 104.
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