Computed Axial Lithography

Volumetric Printing Breakthrough: Computed Axial Lithography Advances Glass Microstructure 3D Printing

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What Happened Researchers at UC Berkeley have developed an innovative 3D-printing technology that leverages computed axial lithography (CAL) to fabricate intricate glass microstructures. This approach represents a significant advancement in volumetric 3D printing, enabling the creation of complex glass components with unprecedented precision and speed. Why It Matters Traditional glass manufacturing methods are often limited … Read more

Dynamic Interface Printing Advances Volumetric Bioprinting with Computed Axial Lithography

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What Happened Recent developments in volumetric bioprinting have been highlighted by VoxelMatters through the introduction of Dynamic Interface Printing (DIP). This technique shows promise in enhancing volumetric bioprinting capabilities by leveraging computed axial lithography (CAL) principles to fabricate complex, cell-laden structures rapidly and with high fidelity. Why It Matters Volumetric printing technologies like CAL represent … Read more

Berkeley’s Computed Axial Lithography 3D Printer Tested in Suborbit: A New Frontier in Volumetric Printing for Space

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What Happened Researchers at the University of California, Berkeley recently tested a novel 3D printer based on computed axial lithography (CAL) in a suborbital environment, as reported by 3DPrint.com. This test is significant as it demonstrates the potential of volumetric 3D printing technologies in microgravity or near-space environments, a critical step toward advanced manufacturing capabilities … Read more

Volumetric 3D Printing Breakthrough: UC Berkeley and LLNL Advance Computed Axial Lithography

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What Happened In early 2019, new details surfaced regarding a collaborative volumetric 3D printing technology developed by researchers at UC Berkeley and Lawrence Livermore National Laboratory (LLNL). This technology utilizes Computed Axial Lithography (CAL), a volumetric printing approach that promises to revolutionize the speed and complexity of 3D printed parts by curing entire volumes of … Read more