News

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

Exploring Continuous Multi-Material Volumetric 3D Printing: The Future of Additive Manufacturing

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What Happened Recent advancements in continuous multi-material additive manufacturing have introduced a promising approach to volumetric 3D printing. This technique enables the simultaneous printing of multiple materials in a continuous process, overcoming previous limitations of layer-by-layer methods. By integrating volumetric printing concepts with multi-material capabilities, researchers are pushing the boundaries of speed, complexity, and functionality … Read more

Revolutionizing Volumetric 3D Printing: Novel Resin Introduces Subtractive Capabilities to DLP Additive Manufacturing

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What Happened A recent development reported by Hackster.io unveils a novel 3D printing resin that introduces a subtractive process to Digital Light Processing (DLP) additive manufacturing. Traditionally, DLP-based 3D printing has been purely additive—building parts layer by layer by curing resin with projected light. This new resin, however, enables a unique ability to remove material … Read more

Volumetric 3D Printing Breakthrough Unlocks Next-Gen Medical Devices and Stretchable Electronics

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What Happened Researchers at The University of Texas at Austin have announced a significant breakthrough in volumetric 3D printing technology that promises to accelerate development of next-generation medical devices and stretchable electronics. This innovation leverages volumetric printing methods to create complex, flexible structures with unprecedented speed and precision, potentially transforming manufacturing approaches in these high-impact … Read more

Graphy and FUGO Precision 3D Partnership Advances Volumetric 3D Printing Innovation

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What Happened In a recent development reported by VoxelMatters, Graphy has entered into a partnership agreement with FUGO Precision 3D. This collaboration aims to leverage their combined expertise to accelerate the development and commercialization of volumetric 3D printing technology. Why It Matters Volumetric 3D printing represents a significant leap beyond traditional layer-by-layer additive manufacturing. By … Read more

UTSW’s $25M Boost Accelerates Volumetric 3D Printing for Functional Liver Tissue

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What Happened In a significant development for the future of regenerative medicine, the University of Texas Southwestern Medical Center (UTSW) has been awarded $25 million to advance research focused on 3D printing functional liver tissue. This funding, reported by 3D Printing Industry, is geared towards developing volumetric 3D printing techniques that can fabricate liver tissue … Read more

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