BS 6200-3.12.5:1986

Overview

BS 6200-3.12.5:1986 outlines the procedures for sampling and analysing iron, steel, and other ferrous metals, specifically focusing on the determination of copper in permanent magnet alloys using a volumetric method. This standard is crucial for ensuring the quality and compliance of materials used in various electrical engineering applications.

Key Requirements

The standard specifies the following key requirements for the analysis of copper content in permanent magnet alloys:

• Sampling Procedures: Detailed guidelines for obtaining representative samples from bulk materials to ensure accuracy in analysis.
• Preparation of Samples: Instructions on how to prepare samples for analysis, including necessary equipment and techniques.
• Volumetric Analysis Method: A comprehensive description of the volumetric method for determining copper content, including reagents, equipment, and step-by-step procedures.
• Calibration and Validation: Requirements for calibrating equipment and validating results to ensure reliability and repeatability.

Implementation Benefits

Implementing BS 6200-3.12.5:1986 provides several benefits for compliance professionals and organisations involved in the production and testing of ferrous metals:

• Quality Assurance: Adhering to this standard helps ensure that products meet specified quality criteria, reducing the risk of defects.
• Regulatory Compliance: Compliance with this standard aids in meeting legal and industry regulations, thereby avoiding potential penalties.
• Enhanced Reputation: Demonstrating adherence to recognised standards can enhance an organisation's reputation for quality and reliability.
• Improved Efficiency: Standardised procedures streamline the analysis process, leading to more efficient operations and reduced turnaround times.

Compliance Value

Compliance with BS 6200-3.12.5:1986 is essential for organisations engaged in the manufacture and testing of ferrous materials. The standard not only provides a framework for accurate analysis but also contributes to the overall integrity of products in the electrical engineering sector. By following the guidelines set forth in this standard, organisations can:

• Minimise Risks: Reduce the likelihood of non-compliance issues that could lead to product recalls or legal challenges.
• Facilitate Trade: Ensure that products can be traded internationally by meeting global standards for material quality.
• Support Innovation: Enable the development of new materials and technologies by providing a reliable basis for material characterisation.

In conclusion, BS 6200-3.12.5:1986 serves as a vital resource for professionals in the electrical engineering field, ensuring that the analysis of copper in permanent magnet alloys is conducted with precision and reliability. Adopting this standard not only enhances product quality but also supports compliance with regulatory requirements.