Technology
Technology
SLA - Stereolithography
Stereolithography (SLA) is a 3D printing process that uses ultraviolet lasers to cure photosensitive liquid resins, building objects layer by layer with high precision and detail. During the printing process, a thin layer of liquid resin is selectively exposed to the laser, which solidifies the areas corresponding to the digital model.
This method enables the production of smooth surfaces, extremely fine details, and complex geometries ideal for high-definition prototypes, concept models, and components requiring high-quality finishes.
Thanks to its accuracy and the wide range of customizable resins available, SLA technology is highly valued in design, engineering, and small-batch manufacturing.
The build platform size for this technology is 3000 mm for white material, and around 1000 mm for transparent material.
Processing
PRINTABLE MATERIALS
WHITE ABS-LIKE RESIN
SIMIL-ABS White is a high-performance photopolymer resin that accurately reproduces the aesthetic and mechanical properties of traditional ABS. It features a smooth surface, a uniform matte white finish, and excellent dimensional stability. Thanks to its good impact and tensile strength, it is ideal for functional prototypes, technical components, and assembly validation. Produced using SLA technology, it ensures outstanding precision, fine detail, and a superior surface finish compared to FDM materials.
TRANSPARENT ABS-LIKE RESIN
SIMIL-ABS Transparent is a photopolymer resin that combines high transparency with excellent detail definition, making it ideal for both aesthetic and functional prototypes. Its glossy, crystal-clear finish allows for realistic simulation of translucent plastic components such as covers, housings, or optical parts. The material offers good rigidity, mechanical strength, and dimensional accuracy while maintaining a refined, professional appearance. Produced using SLA technology, it ensures geometric precision and perfectly smooth surfaces.