BS EN ISO/ASTM 52953:2025
Additive manufacturing for metals. General principles. Registration of data acquired from process monitoring and for quality control
Standard number: | BS EN ISO/ASTM 52953:2025 |
Pages: | 34 |
Released: | 2025-08-28 |
ISBN: | 978 0 539 23427 5 |
Status: | Standard |
BS EN ISO/ASTM 52953:2025 - Additive Manufacturing for Metals
Standard Number: BS EN ISO/ASTM 52953:2025
Pages: 34
Release Date: August 28, 2025
ISBN: 978 0 539 23427 5
Status: Standard
Overview
The BS EN ISO/ASTM 52953:2025 standard is a comprehensive guide that outlines the general principles for additive manufacturing of metals. This standard is essential for professionals in the field of additive manufacturing, providing a structured approach to the registration of data acquired from process monitoring and quality control. Released on August 28, 2025, this document is a critical resource for ensuring the highest standards in metal additive manufacturing processes.
Key Features
- Comprehensive Coverage: With 34 pages of detailed guidelines, this standard offers an in-depth look at the principles of additive manufacturing for metals.
- Process Monitoring: It provides a framework for the registration of data acquired during process monitoring, ensuring that all aspects of the manufacturing process are meticulously documented.
- Quality Control: The standard emphasizes the importance of quality control, offering guidelines to maintain and improve the quality of metal additive manufacturing.
- International Recognition: As a BS EN ISO/ASTM standard, it is recognized internationally, making it a valuable resource for global operations.
Benefits of Using This Standard
Implementing the guidelines from the BS EN ISO/ASTM 52953:2025 standard can significantly enhance the efficiency and quality of metal additive manufacturing processes. Here are some of the benefits:
- Improved Process Efficiency: By following the structured approach outlined in the standard, manufacturers can streamline their processes, reducing waste and increasing productivity.
- Enhanced Product Quality: The focus on quality control ensures that the final products meet the highest standards, reducing the risk of defects and increasing customer satisfaction.
- Data-Driven Decisions: The emphasis on data registration allows for better analysis and decision-making, leading to continuous improvement in manufacturing processes.
- Compliance and Standardization: Adhering to an internationally recognized standard ensures compliance with industry regulations and promotes standardization across different manufacturing sites.
Who Should Use This Standard?
This standard is designed for a wide range of professionals involved in the additive manufacturing industry, including:
- Manufacturing Engineers: To optimize processes and ensure quality control.
- Quality Assurance Professionals: To implement effective quality management systems.
- Research and Development Teams: To innovate and improve manufacturing techniques.
- Compliance Officers: To ensure adherence to international standards and regulations.
Conclusion
The BS EN ISO/ASTM 52953:2025 standard is an invaluable resource for anyone involved in the additive manufacturing of metals. By providing a clear framework for process monitoring and quality control, it helps manufacturers achieve excellence in their operations. Whether you are looking to improve efficiency, enhance product quality, or ensure compliance with international standards, this document is an essential tool in your professional toolkit.
For those committed to advancing their manufacturing processes and maintaining the highest standards of quality, the BS EN ISO/ASTM 52953:2025 standard is a must-have resource. Embrace the future of manufacturing with confidence and precision by integrating this standard into your operations.
BS EN ISO/ASTM 52953:2025
This standard BS EN ISO/ASTM 52953:2025 Additive manufacturing for metals. General principles. Registration of data acquired from process monitoring and for quality control is classified in these ICS categories:
- 25.030 Additive manufacturing