They focused on gyroid infill, an intricate, repeating internal structure commonly employed in additive manufacturing to minimize weight while preserving structural integrity.
A new additive manufacturing route creates carbon fiber silicon carbide mirrors that unite low weight, strength, and sub-nanometer smoothness, reaching 97 percent visible reflectance for space optics.
Space.com on MSN
Scientists 3D printed muscle tissue in microgravity. The goal is to make human organs from scratch
To work toward getting around this issue, researchers used parabolic flights to simulate microgravity conditions, then 3D ...
Researchers at the University of Illinois Urbana-Champaign have developed a new method to 3D-print flat composite structures ...
Interesting Engineering on MSN
Engineers 3D-print flat sheets that transform into curved satellite structures in space
A team led by aerospace Ph.D. student Ivan Wu and his advisor Jeff Baur has developed a low-energy, scalable technique that ...
Manufactured using digital light processing (DLP) additive techniques, the lattice serves as a bionic musculoskeletal ...
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