Team EOS
The Art of Post-Processing with Direct Metal Laser Sintering Technology
Additive manufacturing (AM) and more specifically, direct metal laser sintering (DMLS) technology has brought unprecedented design freedom and application complexity to metal manufacturing. It has enabled the creation of complex,…
Why Corrosive Resistant Materials Are Important to the Success of 3D Printing Across Industries
The adoption of additive manufacturing (AM) is accelerating across many major industries. As this technological shift unfolds, the importance of corrosion resistance has emerged as a challenge for 3D printing…
What’s Next for Additive Manufacturing Materials?
As many additive manufacturing (AM) users and engineers know, material science is just as important as the industrial 3D printing technology itself. Both work in tandem to help manufacturers reach…
Why Sustainable Manufacturing Processes and Polymer Material Recyclability are as Important to Your Cost-Per-Part as they are to the Planet
Plastic recycling has been a long-fought battle and debate for decades, entering the forefront of consumer’s minds in 2015 through the viral video of a marine biologist and a suffering…
FDR vs. SLA: The Right Polymer Manufacturing Choice for Your Application
The additive manufacturing (AM) industry has no shortage of acronyms when it comes to the various methodologies of industrial 3D printing. In polymer 3D printing, there are three main methods…
Fine Detail Resolution: A New Level of Precision and Durability Beyond Traditional Polymer 3D Printing
Fine detail resolution (FDR) is a technology that enables balance in polymer additive manufacturing (AM). This technology allows for the creation of robust parts with a high level of detail…