In the Fused Filament Fabrication (FFF) the printer heats the thermoplastic fiber until the melting point is almost reached. Through nozzles, the printing material is then applied layer by layer, so that a plastic matrix is formed.
Due to the wide range of MARKFORGED filaments made of nylon / PA6 and carbon fiber, over glass fiber and HSHT glass fiber, up to Kevlar, ONYX - the mixture of Nylon and cut carbon fibers - and even reach to Stainless steel, our Printed products withstand every requirement.
Continuous Filament Fabrication (CFF) is our unique and patented technology with which the printed Components a fiber reinforcement is added. Within the thermoplastic matrix continuous fiber strands are laid. The user decides, which layer is reinforced, whether it's reinforced, ob sie stark verstärkt wird, in which direction the fiber is arranged and with which type of material is reinforced. Thus 3D printed components, which are stronger than aluminum, are possible
The combination of proven MIM technology (Metal Injection Molding) and our unique 3D printing platform ranges from prototyping to production using the same materials and processes
The large volume of the X-Series is ideal for robotics, automotive parts, prototypes and prosthetics and almost 3x larger than the space of the Markforged Mark Two. With a layer height of 50 microns, your components from the 3D Printer are provided with a beautiful surface and are similar to the sight and the feeling of injection molding.
With the X7 you get a breakthrough in quality and precision on 3D PRINTING. Thanks to an integrated laser, you can use the EIGER software to define tolerances on the construction process and continuously monitor during the printing process.