Ruby Nozzle 2

9

Hardness (Mohs)
550

Maximum Printing Temperature
45W/m·k

Thermal Conductivity
5.3μm/m·℃

Expansion Coefficient
 
1. The structure of the ruby optimized with a 60° cone angle at the feeding port makes the flow rate at the inner hole faster and avoids the nozzle plugging.

2. Hardened steel with a hardness of HRC60 and above, which is the first choice for abrasive and high temperature materials printing.

3. Applying DLC nano-coating on the whole nozzle makes the friction coefficient of the inner and outer wall of nozzle is only 0.03, which greatly reduces the problem of filament sticking.

4.The combined assembly structure of ruby tip and nozzle body reduces filament leakage caused by the ruby falling or shifting, which finally improves the printing reliability
 
RepRap M6 | 175/300:0.25mm/0.4mm/0.6mm/0.8mm
MK8 | 175/300:0.25mm/0.4mm/0.6mm/0.8mm
MK10 | 175:0.25mm/0.4mm/0.6mm/0.8mm
MK10 PTFE | 175/300:0.25mm/0.4mm/0.6mm/0.8mm
RepRap M6 Plus | 175/300:0.25mm/0.4mm/0.6mm/0.8mm

ruby Structural optimization | The structure of the ruby optimized with a 60° cone angle at the feeding port makes the flow rate at the inner hole faster and prevents the nozzle clogging.
nano-coating | Applying DLC nano-coating on the whole nozzle makes the friction coefficient of the inner and outer wall of nozzle is only 0.03, which greatly reduces the problem of filament sticking.
Combined structure | The combined assembly structure of ruby tip and nozzle body reduces filament leakage caused by the ruby falling or shifting, which finally improves the printing reliability.
Hardened steel material | Hardened steel with a hardness of HRC60 and above, which is the first choice for abrasive and high temperature materials printing.

The Phaetus Ruby Nozzle can Compatible with all consumables, such as PLA, ABS, PETG, TPU, PP, PC, Nylon, PEEK, PEI and composites with abrasive additives such as Carbon Fibre, Steel, Wood, Boron Carbide, Tungsten and Phosphorescent pigment.


Min. Orifice Diameter
φ0.20

Tolerance
±0.006mm

Inner Hole Roughness
≤Ra0.012μm

Concentricity
≤0.02mm