Phaetus Dragon Standard Flow Hotend

High quality all-metal hotend for temperatures up to 500 ° C

  • Optimal thermal insulation
  • Can be used up to 500 ° C
  • Fast heating
  • £76.60

Price shown includes 20% VAT. Excludes delivery costs

Out of Stock No longer available

Add to Wish List

Item no.: PH-A088-01B-15-3, Content: 1 pc

EAN: 6973090160692

  • Optimal thermal insulation
  • Can be used up to 500 ° C
  • Fast heating

Product information & technical details

Item no.: PH-A088-01B-15-3
Manufacturer No.: A088-01B-15-3
Manufacturers: Phaetus
Content: 1 pc
Product types: Hot-Ends
Filament Diameter: 1,75 mm

Description

The Phaetus Dragon is an all-metal hotend. Depending on the heating cartridge, the hotend can be heated up to 500 ° C and you can process almost any filament.

The special heat break has an ultra-thin wall thickness of 0.1 mm, which ensures optimal thermal insulation. The inner hole roughness (≤ Ra0.3) and the precise production tolerances also improve the print quality and enable a uniform filament flow.

Compatibility

Both variations of Standard Flow and High Flow have the same dimensions. The individual components can be exchanged flexibly.

Without an adapter, the hotend is compatible with V6 hotend interfaces like:

  • Prusa i3 MK3 / MK3S
  • Titan Extruder
  • BMG Extruder

For other models like Creality Ender 3 and CR-10 series, an adapter is necessary. Suitable adapters can be found on numerous portals.

Special features

  • Flow rate >46 mm³ / s possible
  • Full metal
  • High-temperature application (up to 500 ° C)
  • High stability
  • Compact design
  • Incl. coated V6 nozzle 0.4 mm

Questions & Answers about Phaetus Dragon Standard Flow Hotend

Pose a question about this product to customers who have already purchased the item. Please forward any other order-related questions to our Customer Service Team.

Customer Reviews

Did you know?

The most popular technology used for 3D printing is FDM (Fused Deposition Modelling). A heated nozzle (hot-end) melts the plastic wire, layering the melted parts.