Researchers at Tsinghua University have developed a novel 3D printing technology capable of forming millimeter-scale precision structures in just 0.6 seconds, achieving speeds of hundreds of millions of voxels.
A groundbreaking 3D printing technique has emerged from Tsinghua University, demonstrating the ability to produce millimeter-scale precision structures at unprecedented speeds. The new method can reportedly complete the printing of such structures in a mere 0.6 seconds.
This rapid fabrication is attributed to a process that achieves speeds of hundreds of millions of voxels per second. The technology leverages advanced light beam projection and specialized materials to enable this remarkable acceleration in manufacturing complex geometries.
While specific details regarding the exact projection method and the types of materials used are not provided, the development signifies a significant leap forward in volumetric additive manufacturing. The ability to achieve high precision at such high speeds opens new avenues for rapid prototyping and mass production of intricate components.
The implications of this development are far-reaching, potentially impacting industries that rely on precise and quickly manufactured parts. The speed and resolution achieved suggest a significant advancement in additive manufacturing capabilities.
This development represents a substantial leap in volumetric additive manufacturing, drastically reducing build times for high-precision components. Achieving speeds of hundreds of millions of voxels per second with millimeter-scale resolution could revolutionize rapid prototyping and on-demand manufacturing, potentially enabling complex part production in fields like microelectronics, medical devices, and even in-situ manufacturing for aerospace applications where speed and precision are critical.
Edited by the news editor with AI and translated into English from the original report — please refer to the original source.