Hardening of the liquid resin with a laser beam guarantees good quality and fineness of the created details. SLA technology enables complex geometries to be printed with high precision from a wide range of functional materials. It is the most precise 3D printing technology in the world. Allows to produce the finest details of 3D printed models.
Stereolithography enables printing from a wide range of functional materials with different scales of elasticity, thermal resistance, mechanical strength or enhanced aesthetic values, guaranteeing, among other things, a high quality surface. Available in SLA technology, HighTemp Resin enables the creation of components capable of withstanding 239 degrees C in a high temperature environment. Another interesting material is a resin imitating silicone, which hardness is only 50 ShA.
Stereolithography is one of the most precise 3D printing technologies in the world. Enables to reproduce even the smallest details on printed models. The accuracy of SLA printouts ranges from 0.1 mm to 0.2 mm.
The material is mainly used to create transparent prototypes and conceptual models. It is characterized by high durability and quality of the printed surface due to its good geometric representation. Clear resin is a very good choice to show and highlight the inside and details of the construction.
A material that simulates the behavior of polypropylene (PP) due to its high impact strength, low longitudinal elasticity and low friction coefficient. Models made of this material are characterized by an aesthetically pleasing exterior surface. Durable resin is used in the preparation of prototypes and products with snap fasteners and connectors.
It is a light-curing resin used in Formlabs FORM2 printers. The material is used mainly for printing flexible elements with matt black delicate finish. This resin is suitable for creating ergonomic elements for tools, conceptual models or mock-ups of devices.
The first precision resin for Formlabs FORM2 printers. It is characterized by good thermal resistance and elongation. It is a material used in functional prototyping, as well as in the verification of mould fit, testing of production equipment and as a model in thermoforming and prototyping of injection parts.
This material is the most flexible material for prototyping components wich are normally made from silicone. The flexibility on the Shore’s scale is 50A. Suitable for elements to be bent and compressed.
It is dedicated to static work of elements subjected to high temperatures. It is used during such production processes as thermal shaping, injection or casting.
This material was designed as an ABS equivalent due to its high tensile strength and modulus of elasticity. It is suitable for printing prototypes, assemblies and rigid functional parts.
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