With the assistance of a laser, powdered materials, usually polymers, can be selectively fused to create solid three-dimensional objects using Selective Laser Sintering (SLS), an advanced 3D printing technique. SLS has a number of essential advantages. Unlike conventional methods, it allows for the fabrication of complex geometries without the need for support structures during printing because the unsintered powder functions as a natural support for overhanging elements.
With support for a variety of thermoplastics, such as nylon, TPU, and glass-filled materials, SLS is well known for its adaptability in material choices. This qualifies it for low-volume manufacturing as well as the production of functioning ...
With the assistance of a laser, powdered materials, usually polymers, can be selectively fused to create solid three-dimensional objects using Selective Laser Sintering (SLS), an advanced 3D printing technique. SLS has a number of essential advantages. Unlike conventional methods, it allows for the fabrication of complex geometries without the need for support structures during printing because the unsintered powder functions as a natural support for overhanging elements.
With support for a variety of thermoplastics, such as nylon, TPU, and glass-filled materials, SLS is well known for its adaptability in material choices. This qualifies it for low-volume manufacturing as well as the production of functioning prototypes and end-use parts. Additionally, the method allows for the simultaneous printing of several pieces, increasing production efficiency.
Despite being more costly than other alternatives, SLS 3D printers are the go-to option for industrial and professional applications because of their ability to produce intense, complex, and functional parts.