The ability to produce parts with repeatable characteristics and consistent quality is a key factor to the increased adoption of 3D printing in the multi-billion dollar aircraft interior parts segment. 3D printing aircraft interior parts can have key inherent benefits for both supply chain efficiency and for the product offering of aircraft interior manufacturers. Hear from John Wilczynski, Deputy Director - Technology Development for the National Center for Defense Manufacturing and Machining and Chris Holshouser, director, specialty solutions at Stratasys, as they discuss the challenge of using FDM additive manufacturing for certified aircraft applications and the Stratasys solution that includes the new Aircraft Interiors Configuration Fortus 900mc. Learn more: https://www.stratasys.com/materials/search/ultem9085
A detailed guide on understanding and evaluating 3D printer accuracy specifications. This guide will explain key terms, describe how accuracy is measured with standardized test artifacts and rigorous measurement methods, describe interpreting common datasheet formats, highlight red flags and critical questions, and emphasize reproducibility and transparency for printer performance aligning with part tolerances and real-world manufacturing needs.
続けて見るA step-by-step guide to rapid prototyping with 3D printing, including workflows, materials, prototype fidelity, and how teams iterate faster.
続けて見るLearn about 3D printing materials, technologies, and proven methods that are safe for food for 3D printed parts that touch food.
続けて見るA detailed guide on understanding and evaluating 3D printer accuracy specifications. This guide will explain key terms, describe how accuracy is measured with standardized test artifacts and rigorous measurement methods, describe interpreting common datasheet formats, highlight red flags and critical questions, and emphasize reproducibility and transparency for printer performance aligning with part tolerances and real-world manufacturing needs.
A step-by-step guide to rapid prototyping with 3D printing, including workflows, materials, prototype fidelity, and how teams iterate faster.
Learn about 3D printing materials, technologies, and proven methods that are safe for food for 3D printed parts that touch food.
