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Ideal to begin your 3D printing journey!

Based on high-performance biopolymer with a softening temperature (VICAT) of up to 100°C.

Excellent easy-to-use alternative to well-known PET-G, combines the most desirable features of Tough PLA and Premium PET-G.

Based on an engineering polymer with exceptionally high mechanical properties

Composite filament based on an appropriately selected ASA with carbon fibre filling.

Eco-friendly polyester, technical material with more than 90% recycled content.

Spectrum ASA Kevlar filament is a technical composite material based on a combination of ASA copolymer and aramid fibres.

Durability of PCTG enhanced by the advantages of glass fibre.

The carbon fibres used give the filament an extremely high stiffness.

Improved flowability & extremely high impact resistance as compared to classic materials based on PLA.

Eco-friendly filament that fits into a sustainability initiative, created by reusing the recycled extrusion residual waste stream.

The most popular 3D printing filament, very easy to 3D print delivering perfect side surface. It shows full biodegradability.

Highly aesthetical PLA-based filament blended with high-gloss silver or gold glitter particles.

Well-known for its excellent mechanical properties PET-G, supplemented by adding 10% PTFE.

Eco-friendly filament that fits into a sustainability initiative, created by reusing the recycled extrusion residual waste stream.

The matte finish of printed items considerably improves their aesthetic properties and also minimises the visibility of layers on the side surfaces of printed items.

Biodegradable PLA-based filament with additives allowing to obtain a matte surface of prints, which significantly increases their aesthetics.

Incredibly strong photoluminescence effect (glowing in the dark with its own light) thanks to the use of a special phosphorescent pigment.

The metallic gloss of the print surface significantly reduces the visibility of the layers & allows for exceptional aesthetic values.

Carbon fiber reinforcement provides a significant increase in stiffness, hardness & tensile resistance.

Perfect solution for printing functional components with mechanical properties close to those of ABS, while maintaining the simplicity of PLA printing.

Filament based on pure PLA blended with a thermochromic pigment, changes its colour according to the temperature.

Original series of PLA-based filaments created to imitate the “stony” structure of the printed items.

?Smart? version demonstrates improved processing parameters: essentially lower shrinkage & increased flow rate.

Professional grade material showing excellent resistance to external exposure, changing weather conditions & UV radiation.

Secon most popular material for 3D printing. Its significant advantage of PETG is practically no shrinkage, odorlessness & chemical resistance.

Carbon reinforced PET-G-based filament offering a considerably higher rigidity, hardness & tensile resistance.

The transparency of PET-G makes the photoluminescence effect (glowing in the dark with its own light) even stronger.

Highly aesthetical PETG-based filament blended with high-gloss silver or gold glitter particles.

Composite filament based on ABS with the addition of aramid fibers, commonly known as Kevlar.

Industrial grade material exhibiting much higher mechanical strength than other similar materials available on the market.

Manufactured using ABS pellets that meet the biocompatibility requirements of USP Class VI or ISO 10993-1 certifications.

Advanced polycarbonate-based (PC) composite filament with the addition of PTFE commonly known as teflon.

PP features high flexibility (ultimate elongation – 500%) & high impact resistance plus reduced moment of inertia as compared to metal parts. Made with LUVOCOM 3F® 3F PP 9929 NT.

Heat-stabilised, carbon fibre-filled composite material. A true heavy-duty specialist.

Applied glass fibers increase mechanical refinement in terms of tensile and compressive strength.

Highly functional filament based on polyamide 6 with increased mechanical strength & exceptional thermal properties. Made with LUVOCOM 3F PAHT® 9875 NT.

High-temperature PA6-based construction material in black colour offering increased mechanical strength & temperature resistance. Made with LUVOCOM 3F PAHT® 9936 BK.

Thanks to the halogen-free flame retardant used, the UL-94 V0 flammability rating is achieved on >0.4 mm thick printed parts. Made with LUVOCOM 3F PAHT® KK 50056 BK FR.

Filled with glass micro-spheres, being an electrical insulator, it is stiffer & lighter than the polyamide the material is based on. Made with LUVOCOM 3F PAHT® GK 9874 NT.

Filling with carbon fibers increases significantly the mechanical strength of the polyamide the material is based on. Made with LUVOCOM 3F PAHT® CF 9742 BK.

Flexible material designed for engineering applications requiring both the durability of an engineering-class polymer & strength.

Halogen-free, flame-resistant PETG-based filament designed to provide a high level of safety in everyday or working environments.

Intended for advanced users, who require excellent durability from printouts working in real conditions.

The easiest-to-print carbon fiber filled material showing much better temperature & mechanical properties than PET-G based materials. Made with LUVOCOM® 3F PET CF 9780 BK.

It is usually used as a carrier for components made from ABS, where HIPS-X carriers are dissolved in D?Limonene.

The improved cohesiveness of PA6 Low Warp allows the high intrinsic shrinkage to be significantly reduced.

S-Flex 98A is based on a thermoplastic polyether polyurethane, characterized by a relatively easy and error-free 3D printing process.

S-Flex 85A parts are characterized by high resistance to hydrolysis, good recyclability, and excellent resistance to dynamic forces.

S-Flex 90A is a filament designed for 3D printing, making it much easier to produce flexible objects than other such materials.

Not only the appearance of wood, but also the texture of real wood can be felt by touch.

Alumina is a filament containing alumina powder of high purity (99.7 percent).

Silicon carbide is a filament containing high-purity silicon carbide powder.

Zirconia is a filament containing zirconium powder of high purity.

The silicon nitride filament contains high-purity ceramic powder.