BS EN ISO 24181-1:2025
Rare earth. Determination of non-rare earth impurities in individual rare earth metals and their oxides. ICP-AES Analysis of Al, Ca, Mg, Fe and Si
| Standard number: | BS EN ISO 24181-1:2025 |
| Pages: | 20 |
| Released: | 2025-12-15 |
| ISBN: | 978 0 539 37467 4 |
| Status: | Standard |
BS EN ISO 24181-1:2025 - Rare Earth Impurity Analysis Standard
Introducing the BS EN ISO 24181-1:2025, a comprehensive standard that sets the benchmark for the determination of non-rare earth impurities in individual rare earth metals and their oxides. This standard is an essential tool for professionals in the field of material science, metallurgy, and chemical analysis, providing a detailed methodology for the analysis of impurities such as Aluminum (Al), Calcium (Ca), Magnesium (Mg), Iron (Fe), and Silicon (Si) using ICP-AES (Inductively Coupled Plasma Atomic Emission Spectroscopy).
Key Features
- Standard Number: BS EN ISO 24181-1:2025
- Pages: 20
- Release Date: December 15, 2025
- ISBN: 978 0 539 37467 4
- Status: Standard
Comprehensive Analysis
This standard provides a detailed procedure for the determination of non-rare earth impurities, ensuring high precision and accuracy in the analysis of rare earth metals and their oxides. The use of ICP-AES allows for the detection of trace levels of impurities, which is crucial for maintaining the quality and performance of rare earth materials in various applications.
Why Choose BS EN ISO 24181-1:2025?
The BS EN ISO 24181-1:2025 standard is designed to meet the needs of industries that rely on the purity of rare earth elements. Whether you are involved in the production, processing, or research of rare earth materials, this standard provides the necessary guidelines to ensure that your materials meet the highest quality standards.
Benefits of Using This Standard:
- Accuracy: Provides precise methods for detecting and quantifying impurities.
- Reliability: Ensures consistent results across different laboratories and applications.
- Compliance: Helps meet international quality and safety standards.
- Efficiency: Streamlines the analysis process, saving time and resources.
Applications
The BS EN ISO 24181-1:2025 standard is applicable in various sectors, including:
- Electronics: Ensures the purity of rare earth materials used in electronic components.
- Automotive: Critical for the production of high-performance magnets and other automotive components.
- Energy: Essential for the development of efficient energy storage and conversion systems.
- Research and Development: Supports cutting-edge research in material science and engineering.
Technical Details
The standard outlines the use of ICP-AES, a powerful analytical technique that utilizes the emission of light by atoms and ions in a plasma to determine the concentration of elements. This method is particularly effective for analyzing metals and is widely used in the field of analytical chemistry.
ICP-AES Analysis Includes:
- Aluminum (Al): A common impurity that can affect the properties of rare earth metals.
- Calcium (Ca): Often present in trace amounts, requiring precise detection methods.
- Magnesium (Mg): Another potential impurity that can influence material characteristics.
- Iron (Fe): A critical impurity that must be controlled to maintain material integrity.
- Silicon (Si): Can impact the performance of rare earth materials in various applications.
Conclusion
The BS EN ISO 24181-1:2025 standard is an indispensable resource for professionals dealing with rare earth materials. By providing a robust framework for impurity analysis, it ensures that these materials meet the stringent requirements of modern industries. Embrace the precision and reliability of this standard to enhance the quality and performance of your rare earth products.
BS EN ISO 24181-1:2025
This standard BS EN ISO 24181-1:2025 Rare earth. Determination of non-rare earth impurities in individual rare earth metals and their oxides. ICP-AES is classified in these ICS categories:
- 13.030.30 Special wastes