Xolography for 3D Printing in Microgravity.

Xolography is a volumetric 3D printing technique utilizing intersecting light beams within a volume of photopolymer for a spatially controlled photopolymerization. Unlike layer-based methods, Xolography creates structures continuously within a closed photopolymer vat, eliminating the prevalent need for support structures and allowing full geometrical freedom at high printing speeds. The volumetric working principle does not rely on gravity, making Xolography an outstanding technology for additive manufacturing under microgravity conditions as illustrated in a set of experiments during a parabolic flight campaign. The microgravity environment obviates the need for rheology control of resins, enabling the use of low-viscosity formulations (e.g., 11 mPa s) while maintaining the fast and precise 3D printing of acrylic polymer resins and hydrogels. Xolography's speed and reliability facilitate rapid iterations of a print task between Earth's gravity and microgravity conditions. This capability positions Xolography as an ideal tool for material research and manufacturing in space, offering significant cost and efficiency advantages over traditional methods.