RazorBlade Propjet

RazorBlade Propjet

Another flying wing by Donald Wright, designed with high speed in mind offers a lot of fun on the field. Flying wings are unique in that there is little to no fuselage and no empennage. This
typically means less drag, lighter wing loading, faster speeds and more manoeuvrability.

You  will get:

  • STL files
  • Simplify3D Factory files
  • Basic presliced Gcodes for Prusa i3 compatible printers
  • Decals, userguide

You will need:

  • FDM printer with a 200x200x200 mm build volume
  • about 0,5 kg of PLA filament
  • 35 class motor with 500-800W and about 2900KV
  • 6×6″ Pusher propeller
  • 3S 2200 mAh Li-Po battery
  • 60-80A ESC with BEC
  • 2x 12g MG Sub micro servo

 

$20.00

Product Description

Another flying wing by Donald Wright, designed with high speed in mind offers a lot of fun on the field. Flying wings are unique in that there is little to no fuselage and no empennage. This
typically means less drag, lighter wing loading, faster speeds and more manoeuvrability.

This particular model requires just about half of the standard 1kg filament spool to be printed, so the inevitable mishaps at high speeds don’t hurt your wallet so much. The model is also using standard widely available RC equipment.

Here are just a few of the innovations applied to this new design;
• Battery strap slots
• Adequate cooling intakes
• Robust double wall fuselage
• Internal wing space for carbon or other reinforcement
• Lightweight (for printing) single layer printing and webbing
• Plenty of space for diferent powerplants, ESC’s and batteries
• Sliding canopy with locking index
• Modular construction
• Servo covers and internal wire routing though the wingtips
• Supplied fle for bungee launch hook
• Four supplied fles for printing your own decals for livery decoration.
• Wing Root design has “slits” to help minimize print lift from shrinkage

 

 

How it works

Download - Print - Assembly - Fly
  • 1
    Creating process of digital modelling

    Extensive hi-tech 3d structural reinforcement resulting in solid yet lightweight airframe thanks to additive 3Dprinting technology

  • 2
    Printing and testing

    Each plane has been thoroughly tested to find ideal shape and best possible inner structure

  • 3
    Distribution

    Choose your aircraft, download 3d files and print as many you need. Using your desktop 3Dprinter