BS EN ISO 17296-3:2016

Comprehensive Additive Manufacturing Standard: BS EN ISO 17296-3:2016

BS EN ISO 17296-3:2016 is a critical standard for the additive manufacturing industry, providing detailed guidance on the design, materials, and processes involved in industrial 3D printing. As a harmonized European standard, this document ensures manufacturers can achieve consistent quality and compliance across their additive workflows.

Key Specifications and Benefits:

• Identical to ISO 17296-3:2014 - Aligns with the latest international best practices for additive manufacturing.
• Covers Design, Materials, and Processes - Comprehensive coverage of the entire additive workflow, from part design to post-processing.
• Ensures Consistent Quality and Compliance - Standardized requirements help manufacturers meet regulatory and industry standards.
• Applicable to a Wide Range of 3D Printing Technologies - Relevant for powder bed fusion, material extrusion, material jetting, and more.
• Supports Innovation and Continuous Improvement - Provides a framework for developing new additive applications and techniques.

Detailed Guidance for Additive Manufacturing

BS EN ISO 17296-3:2016 is an essential resource for any organization involved in industrial 3D printing. The standard offers comprehensive guidance on the key aspects of additive manufacturing, helping manufacturers optimize their processes and ensure consistent, high-quality results.

Design Considerations

The standard covers the unique design requirements for additive manufacturing, including part geometry, support structures, and post-processing considerations. Manufacturers can use this guidance to develop parts that are optimized for 3D printing, maximizing the benefits of the technology while avoiding common pitfalls.

Material Selection and Characterization

BS EN ISO 17296-3:2016 provides detailed requirements for the selection and characterization of additive manufacturing materials, including powders, filaments, and resins. This helps ensure the materials used are suitable for the intended application and meet necessary performance and safety standards.

Process Parameters and Optimization

The standard outlines best practices for setting and controlling additive manufacturing process parameters, such as build chamber temperature, layer thickness, and scan speed. This guidance supports the development of robust, repeatable processes that deliver consistent, high-quality parts.

Post-Processing and Part Qualification

Finally, BS EN ISO 17296-3:2016 covers the critical post-processing steps required for additive manufacturing, including part removal, surface finishing, and non-destructive testing. This helps manufacturers ensure their 3D printed parts meet all necessary performance and quality requirements.

By following the guidance in BS EN ISO 17296-3:2016, manufacturers can unlock the full potential of additive manufacturing while maintaining the highest levels of quality and compliance. This standard is an essential resource for any organization looking to optimize their 3D printing workflows and stay ahead of the competition.