Silicon Carbide Nozzle V6 Style by Phaetus

PhaetusSKU: PHA1937

Preis:
Sonderpreis€48,95

Customer Reviews

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E
E.C.
Tough little nozzle

Got this to go with the Rapido 2F that I also grabbed when moving to a new toolhead as I have been printing abrasives more and more recently. Well so far in the process of getting it added and updating the config for the new nozzle placement and it had dragged the bed twice. Nozzle 2 bed 0 lol. Wish that it came in more sizes than .4. Guess I'll need to get something different for that. The non-stick coating does appear to be working pretty well as I have several prints on it now and the nozzle still looks clean as new.

Beschreibung

  • 9.8 Hardness (Mohs)

  • 550℃ Maximum Printing Temperature

  • 170W/m·k Thermal Conductivity

  • 4.0μm/m·℃ Expansion Coefficient

    Performance Analysis

From normal PLA to PEEK, even to Carbon Fiber reinforced materials, Silicon Carbide Nozzle could meet all the printing requirements of any material.

Using 99.9% high purity Silicon Carbide material as the nozzle tip which is high temperature resistance and super wear resistance and ensures long-time of 550℃ printing without wearing the nozzle hole and tip flat;

Nozzle tip with 99.9% high purity Silicon Carbide material which is high thermal conductivity and makes an high efficiency of nozzle heating and finally realizes the fast printing;

Silicon Carbide tip assembled by special riveting process to get a stable and reliable fitting. Whole part design of the nozzle body ensure a high strength without fracture.

The whole nozzle is applied with DLC coating which surface friction coefficient is as low as 0.05 and makes a clean printing without any plastic sticking.

High accuracy of nozzle machining, orifice dimension tolerance 0.01mm with concentricity 0.02mm.

Applicable Filament

From normal PLA to PEEK, even to Carbon Fiber reinforced materials, Silicon Carbide Nozzle could meet all the printing requirements of any material.

Product Features

  • φ0.4 Min. Orifice Diameter

  • ±0.01mm Tolerance

  • ≤Ra0.2μm Inner Hole Roughness

  • 0.02mm Concentricity

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