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Scrub Brush

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MOST Delta filament as guide.JPG This page was part of an MTU course MSE4777 OA and MSE4777 OB/MSE5777/EE4777/EE5777: Open-source 3-D printing

Please leave comments using the discussion tab. The course runs in the Fall semester. It is not open edit.

OSAT Scrub Brush

Project developed by User:Pierce Mayville
This OSAT has been designed but not yet tested - use at own risk.
This OSAT has been prototyped.

You can help Appropedia by contributing to the next step in this OSAT's status.


This is a scrub brush for cleaning what ever it is that needs a little elbow grease. It costs a fraction of commercially available scrub brushes. In less developed regions cleaning tools such as a scrub brush are indispensable. This brush is also customizable allowing any size brush to be made easily for any application. It is printed using a bridging technique. [1] This project was inspired by other fully 3d printable bristle designs [2] [3] [4] [5] [6] [7] . Note, some of these designs such as the broom are not OSATs as they are more costly to print than their commercial equivalents.

Bill of Materials

  1. PETG or PLA filament
    1. PETG results in stronger more durable brush bristles
    2. PLA bristles tend to be more brittle
  2. Customizable scrub brush files can be found at:
    1. Print using settings detailed in tech specs

Tools needed for fabrication of the OSAT

  1. MOST Delta RepRap or similar RepRap 3-D printer
  2. Sharp knife, scissors, or other cutting implement

Skills and Knowledge Necessary to Make the OSAT

  • 3d printing slicing basics
  • 3d printing bridging techniques

Technical Specifications and Assembly Instructions

  1. Download desired .stls from
  2. Cura Print Settings
    1. Scale to 101% so G-code will slice bristles
    2. Set layer height to 0.3 mm if using uncostumized bristles
    3. At least 25% infill
    4. Set default print speed to 60 mm/s
    5. Enable "Print thin walls"
    6. Disable support
    7. Enable bridge settings
      1. Min. bridge wall length: 0.5 mm
      2. Bridge skin threshold: 70%
      3. Bridge wall casting: 0%
      4. Bridge wall speed: 30 mm/s
      5. Bridge wall flow: 108%
      6. Bridge fan speed: 100%
    8. Watch first couple layers to ensure bristles are printing properly
      1. Try increasing bridge wall flow or decrease bridge wall speed if they seem disconnected from one side
  3. The smaller test brush .stl from takes ~3 hours to print
  4. Cutting the brushes apart takes 10-15 minutes

Common Problems and Solutions

  • Bristles are not printing right
    • Try scaling .stl to 101% to ensure it is sliced properly
    • Change bridge print settings
    • Make changes to bristle dimensions in .scad
  • Bristles breaking during cutting
    • Try a different color or different filament (Any color PETG should work well)

Cost savings

  • Print that produces two 120mm x 60mm brushes is ~$7.85
  • Scrub Brush with Easy Grip from Walmart is $7.03 [1]
  • $3.11 savings or a 44% savings

Benefited Internet Communities


  1. Spyder Byte – Bridging Techniques, SPYDER3D (Dec16, 2014) Available:
  2. Nail Brush - Fully 3D printed! , Turbo_SunShine (Jan 14, 2019) Available:
  3. Bouldering Brush v2, Turbo_SunShine (Feb 7, 2019) Available:
  4. Room Broom - Spyder3D World, 3DKreashunz(July 7, 2018) Available:
  5. Dust Brush & Pan (Fully 3D Printable), Superbeasti (Oct 1, 2019) Available:
  6. Bridging: 3D Printed Paint Brushes - Spyder3D World, 3DKreashunz (July 7,2018) Available:
  7. Master Jedi YodaHawk - Spyder3D World, 3DKreashunz (July 7,2018) Available: