3D printing technology continues to advance, developing new applications which are particularly promising for the world of architecture. Now, researchers at the Department of Energy’s Oak Ridge National Laboratory (ORNL) have demonstrated a new manufacturing process that can create 3D printed metal components with an unprecedented degree of precision. For architecture, this could mean greater control over the customization of the smallest components in buildings, as well as more carefully engineered properties of the larger ones.
The new technique involves an additive process in which successive layers of material are laid down with computer control and fused to create an object of almost any shape. As technology has progressed, printers have been able to progressively increase their resolution, enabling the creation of smaller parts with smoother surfaces. ORNL has developed a process that precisely manages the solidification of metal parts in each layer on a microscopic scale. This enables them to better control local material properties, which can have a profound impact on the strength, weight, and function of 3D printed metal components.
Read on to learn more about how this manufacturing process could shape the future of 3D printing.