ADVANCED 

What are advanced materials

The advanced materials are the filaments that play a set of mechanical properties, resistance to temperature and chemical resistance far superior to the rest of materials that exist in the world of 3D printing. To achieve these properties, both in materials that have reinforcing fibers and those that do not, the filament must be manufactured with the optimum distribution and quantity of each component. Manufacturers like Nanovia, study and carefully develop each material until they reach a strand of advanced behavior. Thanks to all of the above, materials with incredible mechanical properties are obtained that exert much less wear on the nozzle of the 3D printer compared to other abrasive materials containing reinforcing fibers.

Main advanced materials

Within this category are a series of families of materials that are being key to the evolution of the 3D printing industry.

The one that stands out in this category is the PAEK family (PEEK, PEKK and PEI). The materials that belong to this class are semicrystalline plastics, which resist high temperature (near 200ºC) maintaining high values of mechanical resistance. The PEEK (PolyEtherEtherKetone) is the most crystalline of the three materials. This indicates that it has the highest values of mechanical strength of all, but is more unstable at the time of melting. The PEKK (PolyEtherKetoneKetone) has a semicrystalline structure with two clearly defined regions, an amorphous and a crystalline one. This structural condition offers an increase in the ease of printing (lower crystallization rate) maintaining similar resistance values and even higher than those of the PEEK. The PEI (ULTEM 1010 and ULTEM 9085) is the most modified material within the PAEK family, even reaching the designation of resin. The thermal resistance of this material is one of the highest in the field of 3D printing FDM / FFF, having a glass transition temperature of 215°C and a maximum constant working temperature with a pressure of 0.45 MPa of 200°C.