Showing all 11 results
PLA filament designed for printing lithophanes, for beginners and professionals.
The uniquely developed off-white colour gives a beautifully bright appearance on thin surfaces and a darker, contrasting appearance on thicker surfaces. Printed objects will look like real photographs. Thanks to the additive used to achieve the special optical effect, the printed layers are also less visible, they almost disappear.
Thanks to special additives and pigments, Filaticumt PLA is characterized by easy printability and saturated colors. Even when you print in one layer, you will get the same color you see on the spool. Printable in a wide temperature and printing speed range. The Filaticum PLA can be used without heated bed, and even with an open 3D printer you will get good printing quality.
The PLA raw material of PLA Advanced was developed especially for manufacturing 3D printing filaments, which has to meet higher printing needs. The objects printed with this filament are stronger and more durable.
Filaticum PLA Advanced also has a higher heat resistance, up to 85 0C. With this value, it also competes against PETG and ABS filaments. This filament is less brittle, and with excellent layer adhesion we can achieve an exceptionally even surface and more precise printing. The surface of printed object can be shiny at elevated printing temperature and matt at lower temperature, but this depends on the printer also.
Filaticum High Speed filament has been developed for fast, at the same time accurate 3D printing. It produces high quality, precise prints with a printing speed of 300 mm/s. Depending on the object and the printing settings, up to 600 mm/s printing speed can be achieved with this filament. Because of the special additives, the filament has a lower viscosity, providing excellent material spread and adhesion between layers. Since the filament can be dispensed evenly at higher speeds, there is no clogging or under-extrusion during printing.
PETG is an ideal choice for 3D printing when reduced warping and high heat resistance are important requirements. Objects printed with PETG are heat resistant up to 85° C, and they are also resistant to chemical influences (e.g. chemicals, solvents, biologically active agents). Printing with PETG is almost as simple as with PLA. PETG is odorless when printing.
This PET-G filament reinforced with carbon fibers enhances rigidity, hardness, and tensile strength while maintaining minimal shrinkage. As a result of carbon fiber content, the surface of printed objects is matte, and it gives an attractive appearance. While printing, it provides excellent adhesion to build platforms and good dimensional stability.
This filament is an improved version of our Filaticum PLA Advanced product, and it provides higher quality in terms of mechanical properties. Its PLA raw material is produced specially for 3D printing filaments, which we made even more unique with special additives; thus, it can be used as an alternative to PETG and ABS. What distinguishes from PLA Advanced is that objects printed from PRO filament are much more flexible and impact resistant.
Filaticum PLA Advanced PRO is a really user-friendly, easy-to-print filament. It adheres easily to the bed, its layer adhesion is also excellent, thus providing an even surface and more precise printing result. Higher printing temperature (225C0) is required to achieve better mechanical properties.
The new generation ABS filament is designed for printing more durable, impact resistant, heat resistant objects. Thanks to the automotive-grade raw material and additives, the shrinkage of an object printed with Filaticum ABS is very low, while its impact resistance is extremely high. The surface of the printed object has a matt, silky effect.
Filaticum TPU is designed for rubber-like elasticity. With shore hardness of 90A this filament enables to print flexible objects. It has a good layer adhesion, and it is easier to handle than the most flexible filaments. UV-resistant filament.
Strong, rigid and heat resistant (up to 180°C) composite. Polyamide 6 stands as one of the toughest materials utilized in FFF 3D printing. Its exceptional mechanical strength, stiffness, vibration damping capabilities, and wear resistance surpass those of other filament types. In addition, it offers excellent chemical resistance also.
The carbon fiber content diminishes shrinkage, which is common in most high-temp materials, so that it simplifies the printing process also. The carbon fiber enhances more the stiffness and tensile strength (up to 120 MPa) of filament.