Which additive manufacturing technique is known for its ability to create high-resolution parts with fine details?

Stereolithography is recognized for its ability to produce high-resolution parts with intricate details due to its specific method of using a UV laser to cure liquid resin layer by layer. This technique allows for precise control over the curing process, which results in smooth surface finishes and fine features that can replicate complex geometries accurately. The resolution of stereolithography is typically measured in micrometers, making it suitable for applications requiring high fidelity, such as prototyping, medical devices, and intricate models.

In contrast, the other techniques, while effective in their own right, may not achieve the same level of fine detail. Binder jetting generally focuses on creating larger, less detailed parts suited for rapid production. Material extrusion can be more limited in resolution due to the nature of the filament being laid down, which can often lead to layer lines and a rougher finish. Powder bed fusion, while capable of producing high-strength parts, may not consistently match the fine detail resolution offered by stereolithography due to the characteristics of the materials used and the build process.