There are a variety of 3D printing filaments on the market. Some of them require high temperature resistance of the nozzle, some require wear resistance, or both. In order to present better printing effect, we often need to change the nozzle according to the different printing filaments. It caused a lot of trouble for users of 3D printing equipment.Based on this pain point, Phaetus researched and developed the Tungsten Carbide Nozzle which is called "All Filaments, One Nozzle".
This nozzle is independently researched and developed by Phaetus, which adopts ultra-high hardness material and advanced nano coating treatment. The Mo type hardness can reach 9.0, the coefficient of thermal expansion is 4.5 microns /m.℃,the thermal conductivity is 130w/m.k and the highest printing temperature is 550℃,Super Wear-Resistance、High Temperature Performance、 Low Pushing Force、Faster Speed、 Low Friction，the product has excellent performance and can print all kinds of filaments currently known for desktop 3D printers.
Super Wear-Resistance | Using the world's leading ultra-high hardness tungsten carbide (hardness > 2700Hv (up to 2900Hv)), super wear resistance ensures long-term printing without wearness of nozzle hole and tip flat.
High Temperature Performance | Composed of tungsten carbide and copper alloy with super hardness and excellent conductivity, maximum printing temperature can be 550℃.
Low Pushing Force | Tungsten Carbide Nozzle with high purity more than 99.98% and high thermal performance keeps an even temperature of nozzle tip during printing, thus guaranteeing a stable extrusion.
Faster Speed | Due to the high thermal performance of the nozzle in general, the printing speed can be pushed even further without sacrificing the quality. Unique passageway in the nozzle improves the flow rate at the inner hole faster.
Low Friction | The whole nozzle is applied with WS2 nano-coating after adding a hard and smooth nickel plating layer. Surface friction coefficient is as low as 0.03 which makes the nozzle with clean printing, without plastic sticking to it.