Plastic 3D Printing
SLA (Stereolithography)
high-precision resin-based 3D printing technology that uses a UV laser to cure liquid photopolymer layer by layer. SLA is known for producing extremely smooth surfaces, fine details, and high accuracy, making it ideal for applications such as prototyping, models, and engineering components. This technology is widely used in industries requiring complex geometries and detailed parts with excellent surface finish.
SLS (Selective Laser Sintering)
powder-based 3D printing technology that uses a high-powered laser to sinter thermoplastic powders layer by layer. SLS does not require support structures, making it perfect for complex geometries and durable end-use parts. It is widely used in industrial manufacturing, aerospace, and medical applications where strength and high-temperature resistance are essential.
DLP (Digital Light Processing)
resin-based technology similar to SLA, but instead of a laser, it uses a digital light projector to cure entire layers of resin at once, making it faster than SLA.
DLP produces high-resolution prints with excellent detail and accuracy, making it a great choice for dental, jewelry, and medical applications that require precision
FDM (Fused Deposition Modeling)
the most widely used and cost-effective 3D printing technology, where a heated nozzle extrudes thermoplastic filament layer by layer to build a part. FDM is ideal for engineering-grade prototypes, large-scale parts, and concept models across various industries, including automotive, education, and consumer goods.
CP (Color Prining)
based on MultiJet or Binder Jetting technology, enables full-color, high-resolution models by jetting colored inks onto powder or resin materials. This technology is used in architectural models, medical visualization, product design, and marketing prototypes where full-color representation is crucial.