Additive Manufacturing's Evolution and Future (The Mortzfield Files)

Show Notes

This episode of AM Insider features a special discussion on the history and evolution of the additive manufacturing (AM) industry. Hosts Justin Hopkins and Dustin Kloempken welcome Kevin Mortzfield, an industry veteran who began his career in late 1994, to share his extensive experience.

Kevin Mortzfield's background includes working at 3D Systems as an associate applications engineer, where he started with stereolithography (SLA) on machines like the SLA 250. He then moved to Masco Corporation, running various 3D printing technologies (SLA, SLS, Objet) and managing their R&D facility as a shared service for business units like Delta Faucet and Liberty Hardware. Later, he transitioned to the software side, working for Live Software and currently serving as a solutions engineer at Autodesk, with a focus on Fusion Additive and NetFabb Additive products. This diverse experience allowed him to witness the industry's progression from sales to customer, and then to software development and education.

The discussion covers several key aspects of AM's journey:

• Terminology Evolution: Kevin notes that when he started, it was primarily called rapid prototyping, which was a broader term. The term 3D printing emerged about ten years later, emphasizing the layer-by-layer build process, followed by additive manufacturing, which now encompasses a wider range of applications, including end-use parts.
• Early Applications and Challenges: In the early days, AM was used for form-fit parts and visualization, such as an eight-cylinder engine block that helped identify an interference in a water jacket. Significant challenges included Unix-based software that required manual input and high-end Silicon Graphics workstations. CAD files were often problematic, with issues like bad formats, holes in models, and incorrect parameters leading to distorted shapes or excessively large files. Support removal was also difficult, as solid plastic supports could easily crack parts.
• Technological Breakthroughs: Kevin highlights metal additive manufacturing (direct metal 3D printing) as a major game-changer, allowing for the creation of metal components directly from a 3D printer. The entry of big-name companies like HP into the 3D printing space also brought significant public attention and legitimacy to the industry. The evolution of software from OEM-specific to independent solutions (like Materialise and NetFabb) and eventually integration into CAD packages (like Autodesk Fusion Additive) has greatly enhanced usability and efficiency.
• Successful "Boring" Applications: The episode touches on applications that, while not always glamorous, have proven highly successful and valuable. These include investment casting patterns for complex metal parts (like those used by SpaceX for rocket bodies) and injection molding with conformal cooling lines, which significantly improve manufacturing processes and reduce costs.
• Staying Current and Industry Impact: With the rapid proliferation of different 3D printers—from hobbyist machines to high-end production systems—Kevin emphasizes the importance of staying informed through newsletters (e.g., Additive Manufacturing Media, TCT Magazine, 3D Printing Industry) and attending trade shows like Rapid and AMUG. He stresses that AM has profoundly impacted various industries, including healthcare, manufacturing, and design, becoming an indispensable tool.
• Future Outlook: Looking ahead, Kevin predicts exciting developments in bioprinting (organs, skin) within 5-10 years, as well as large-scale 3D printing in construction for houses and bridges. The conversation also delves into the grow