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Homepage>BS Standards>77 METALLURGY>77.040 Testing of metals>77.040.30 Chemical analysis of metals>BS EN 10188:2024 Steels and cast irons. Determination of chromium content. Flame atomic absorption spectrometric method (FAAS)
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immediate downloadReleased: 2024-06-21
BS EN 10188:2024 Steels and cast irons. Determination of chromium content. Flame atomic absorption spectrometric method (FAAS)

BS EN 10188:2024

Steels and cast irons. Determination of chromium content. Flame atomic absorption spectrometric method (FAAS)

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Standard number:BS EN 10188:2024
Pages:20
Released:2024-06-21
ISBN:978 0 539 26724 2
Status:Standard
BS EN 10188:2024 - Steels and Cast Irons. Determination of Chromium Content. Flame Atomic Absorption Spectrometric Method (FAAS)

BS EN 10188:2024 - Steels and Cast Irons. Determination of Chromium Content. Flame Atomic Absorption Spectrometric Method (FAAS)

Standard Number: BS EN 10188:2024

Pages: 20

Released: 2024-06-21

ISBN: 978 0 539 26724 2

Status: Standard

Overview

The BS EN 10188:2024 standard is an essential document for professionals in the metallurgy and materials science industries. This standard provides a comprehensive method for the determination of chromium content in steels and cast irons using the Flame Atomic Absorption Spectrometric Method (FAAS). Released on June 21, 2024, this 20-page document is a crucial resource for ensuring the accuracy and reliability of chromium content measurements in various metal samples.

Why Choose BS EN 10188:2024?

Chromium is a vital element in the composition of steels and cast irons, significantly influencing their properties and performance. Accurate determination of chromium content is essential for quality control, compliance with industry standards, and the development of new materials. The BS EN 10188:2024 standard offers a precise and reliable method for this purpose, making it an indispensable tool for laboratories and manufacturing facilities.

Key Features

  • Comprehensive Methodology: The standard outlines a detailed procedure for the determination of chromium content using FAAS, ensuring consistent and reproducible results.
  • Industry Compliance: Adhering to this standard helps organizations meet industry regulations and quality requirements, enhancing their credibility and market competitiveness.
  • Technical Precision: The FAAS method described in this standard is known for its high sensitivity and accuracy, making it ideal for detecting even trace amounts of chromium in metal samples.
  • Updated Information: As a 2024 release, this standard incorporates the latest advancements and best practices in the field, providing users with the most current and relevant information.

Applications

The BS EN 10188:2024 standard is applicable in various sectors, including:

  • Metallurgical Laboratories: For routine analysis and quality control of steel and cast iron samples.
  • Manufacturing Facilities: To ensure the chromium content in products meets specified standards and customer requirements.
  • Research and Development: For the development of new materials and alloys with specific chromium content.
  • Regulatory Bodies: To verify compliance with industry standards and regulations.

Benefits

Implementing the BS EN 10188:2024 standard offers numerous benefits, including:

  • Enhanced Quality Control: Accurate determination of chromium content ensures the production of high-quality steels and cast irons, meeting both industry standards and customer expectations.
  • Regulatory Compliance: Adhering to this standard helps organizations comply with national and international regulations, avoiding potential legal and financial penalties.
  • Improved Efficiency: The standardized methodology streamlines the analysis process, reducing the time and resources required for chromium content determination.
  • Increased Market Competitiveness: Organizations that follow this standard can demonstrate their commitment to quality and precision, enhancing their reputation and market position.

Technical Details

The BS EN 10188:2024 standard provides a detailed description of the FAAS method, including:

  • Sample Preparation: Guidelines for preparing steel and cast iron samples for analysis.
  • Instrumentation: Specifications for the flame atomic absorption spectrometer and other required equipment.
  • Calibration: Procedures for calibrating the spectrometer to ensure accurate measurements.
  • Analysis: Step-by-step instructions for conducting the analysis and interpreting the results.
  • Quality Control: Recommendations for maintaining the accuracy and reliability of the analysis, including the use of reference materials and control samples.

Conclusion

The BS EN 10188:2024 standard is an invaluable resource for professionals involved in the analysis and production of steels and cast irons. By providing a precise and reliable method for determining chromium content, this standard helps ensure the quality and compliance of metal products. Whether you are working in a laboratory, manufacturing facility, or regulatory body, the BS EN 10188:2024 standard is an essential tool for achieving accurate and consistent results.

Invest in the BS EN 10188:2024 standard today to enhance your quality control processes, comply with industry regulations, and stay ahead in the competitive metals market.

DESCRIPTION

BS EN 10188:2024


This standard BS EN 10188:2024 Steels and cast irons. Determination of chromium content. Flame atomic absorption spectrometric method (FAAS) is classified in these ICS categories:
  • 77.080.20 Steels
  • 77.040.30 Chemical analysis of metals
This document specifies a flame atomic absorption spectrometric method (FAAS) for the determination of chromium content in steels and cast irons. The method is applicable to non-alloy and low-alloy steels and cast irons with chromium contents between 0,002 % (by mass) to 2,0 % (by mass). The method can be adapted to lower or higher chromium contents by changing the test portion or the dilution factor, provided the criteria in 6.3.2 and 6.3.3 are still met. The precision data of the present method are given in Annex A.