Must Know Additive Manufacturing Standards for Metal Additive Manufacturing

Additive manufacturing (AM), particularly in metal, has revolutionized the way industries produce components and parts. From aerospace to automotive, healthcare to consumer goods, metal additive manufacturing offers several advantages such as design freedom, rapid prototyping, and cost-effective production. However, to ensure quality, safety, and interoperability, adherence to established standards is crucial. In this article, we delve into the essential additive manufacturing standards for metal printing.

ISO 52900:2015 – Additive Manufacturing – General Principles

ISO 52900 serves as the foundation for metal additive manufacturing standards. It outlines fundamental concepts, terminology, and principles applicable to all AM processes, including those specific to metal. Understanding this standard is essential for establishing a common language within the industry and ensuring consistency in communication.

ISO 17295:2023- Part positioning, coordinates and orientation

Published in May 2023, ISO 17295:2023 aims to bring consistency and trust to the exciting world of metal additive manufacturing (AM). This standard defines how parts are positioned, oriented, and tested within AM machines, ensuring clear communication and comparable results across different users, machines, and materials. By optimizing build orientation, standardizing tests, and classifying part properties, ISO 17295:2023 becomes a vital tool for ensuring the quality and trustworthiness of metal AM.

DNVGL-ST-0377 – Additive manufacturing (AM) qualification and certification

This standard by DNV provides guidelines for the qualification and certification of additive manufacturing processes, including those involving metal materials. It covers aspects such as design, materials, production, post-processing, testing, and quality assurance. DNVGL-ST-0377 ensures that metal additive manufacturing processes meet stringent requirements for performance, safety, and reliability, thereby instilling confidence in the technology’s application across various industries, including maritime, oil and gas, and renewable energy.

ISO/ASTM52910-18 Additive manufacturing — Design — Requirements, guidelines and recommendations

This standard provides comprehensive guidance on the design aspects of additive manufacturing, including metal printing. It outlines requirements, guidelines, and recommendations for designing parts and components suitable for additive manufacturing processes. By considering factors such as geometry, support structures, orientation, and surface finish, ISO/ASTM 52910-18 helps optimize designs for additive manufacturing, ensuring manufacturability, functionality, and performance while minimizing production costs and lead times.

ISO/ASTM 52901-16 – Standard Guide for Additive Manufacturing – General Principles – Requirements for Purchased AM Parts

ISO/ASTM 52901-16 provides essential guidance and requirements for organizations involved in procuring metal additive manufactured parts from external suppliers. The standard outlines principles and considerations to ensure the quality, reliability, and fitness for purpose of purchased AM parts across various industries and applications.

ISO/ASTM 52904-19 – Additive Manufacturing – Process Characteristics and Performance: Practice for Metal Powder Bed Fusion Process to Meet Critical Applications

ISO/ASTM 52904-19 provides comprehensive guidance and practices for ensuring the reliability, consistency, and performance of metal powder bed fusion (PBF) processes in critical applications. The standard aims to address the unique challenges and requirements associated with PBF technologies, such as selective laser melting (SLM) and electron beam melting (EBM), to meet stringent application demands, particularly in safety-critical industries like aerospace and medical.

ASTM F3301-18a – Standard for Additive Manufacturing – Post Processing Methods – Standard Specification for Thermal Post-Processing Metal Parts Made Via Powder Bed Fusion

ASTM F3301-18a provides standardized specifications for the thermal post-processing of metal parts manufactured via powder bed fusion (PBF) techniques, such as selective laser melting (SLM) or electron beam melting (EBM). This standard aims to ensure consistent and predictable post-processing methods, thereby enhancing the quality, performance, and reliability of AM-produced metal parts.

Conclusion

In conclusion, additive manufacturing (AM), particularly in metal, has significantly transformed industrial production processes across various sectors, offering unparalleled advantages such as design flexibility, rapid prototyping, and cost-effective manufacturing. However, to ensure the quality, safety, and interoperability of metal AM components, adherence to established standards is paramount.

Overall, these standards play a vital role in fostering innovation, standardization, and quality assurance in metal additive manufacturing, facilitating its widespread adoption and application across diverse industries and domains. As the AM industry continues to evolve, adherence to established standards will remain essential to realize the full potential of this transformative technology.

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