Difference between revisions of "Tools/3D Printing"

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* [[tools/3D_Printing/Bambu Lab P1P|Bambu Lab P1P]]
 
* [[tools/3D_Printing/Bambu Lab P1P|Bambu Lab P1P]]
 
** '''Build Area:''' 256x256x256mm (Roughly 10x10x10 inches)
 
** '''Build Area:''' 256x256x256mm (Roughly 10x10x10 inches)
** Filament diameter: 1.75mm
+
** '''Materials''': PLA, PETG, TPU, PVA, PET
** Materials: PLA, PETG, TPU, PVA, PET
+
*** 1.75 mm filament
 
*** Can be fitted with hardened nozzles for printing filaments with fillers (carbon, glow, wood, etc.)
 
*** Can be fitted with hardened nozzles for printing filaments with fillers (carbon, glow, wood, etc.)
 
*** Supports PA, PC, ABS, ASA with addition of enclosure
 
*** Supports PA, PC, ABS, ASA with addition of enclosure
** '''Workflow:'''
 
*** Does not support OctoPrint, must use stock app. Will receive username and password after training.
 
** '''Settings:'''
 
*** Recommend stock Bambu Studio settings
 
 
* [[tools/3D_Printing/Creality CR-10 S4|Creality CR-10 S4]]
 
* [[tools/3D_Printing/Creality CR-10 S4|Creality CR-10 S4]]
 
** '''Build Area:''' 400x400x400 mm (Roughly 15.75x15.75x15.75 inches)
 
** '''Build Area:''' 400x400x400 mm (Roughly 15.75x15.75x15.75 inches)
** Filament diameter: 1.75mm
+
** '''Materials''': PLA and PETG
** Can work PLA and PETG (ask before printing other materials or filaments with fillers (carbon, glow, wood, etc))
+
*** Can be fitted with hardened nozzles for printing filaments with fillers (carbon, glow, wood, etc.)
** '''Workflow:''' [[tools/3D_Printing/OctoPrint|OctoPrint]]
 
** '''Settings:'''
 
*** [https://github.com/prusa3d/PrusaSlicer/releases Prusaslicer] (Slic3r): https://gist.github.com/MaxBareiss/9f97218f1111aa1ae0247e9d0fbc3083
 
**** To load files go to: File > Import > Import Config Bundle
 
*** Cura: https://gist.github.com/MaxBareiss/dffded4b12485aaded61313ad5667154
 
 
* [[tools/3D_Printing/Elegoo Saturn 8k|Elegoo Saturn 8k]]
 
* [[tools/3D_Printing/Elegoo Saturn 8k|Elegoo Saturn 8k]]
 
** '''Build Area:''' 219x123x210 mm (Roughly 8.6x4.8x8.3 inches)
 
** '''Build Area:''' 219x123x210 mm (Roughly 8.6x4.8x8.3 inches)
** SLA Resin printer
+
** '''Materials''': 405nm UV Resin
** '''Settings:''' Follow instructions on link above
 
  
== Current Filament Available ==
+
== Hacksburg Filament and Resin ==
* PLA filament (transparent blue) -- ~1kg spool
+
These materials are available for members to use for small projects. Please purchase your own materials for larger projetcs.
 +
 
 +
* Bambu PLA Green
 +
* ERYONE PLA Plus Black
 
* ABS filament (green) -- ~1kg spool
 
* ABS filament (green) -- ~1kg spool
  
 
== Usage and Workflow ==
 
== Usage and Workflow ==
The Creality printer is controlled via [[tools/3D_Printing/OctoPrint|OctoPrint]] running on a Raspberry Pi set up next to it. The basic workflow is this:
+
The general process for 3D printing is outlined below. Please see the individual printer pages for full details.
  
# Convert 3D model or download an STL file.
+
# Convert 3D model to STL or download an STL file from online.
# "Slice" the STL file to generate GCode.
+
#* https://www.printables.com/
# Upload the GCode to Octoprint and print.
+
#* https://www.thingiverse.com/
 +
#* etc
 +
# "Slice" the STL file to generate GCode (or resin printer file).
 +
# Prepare the printer
 +
#* Load filament
 +
#* Clean/level the bed
 +
#* Change nozzles if needed
 +
# Send the GCode to the printer.
 +
# Monitor the printer until the print is completed.
  
 
=== 3D Modeling/STL creation ===
 
=== 3D Modeling/STL creation ===
  
We currently recommend [https://www.autodesk.com/products/fusion-360/overview Fusion 360] for creating 3D models. It offers a [https://www.autodesk.com/products/fusion-360/personal free license for hobbyist use].
+
We currently recommend [https://www.solidworks.com/solution/3dexperience-solidworks-makers SOLIDWORKS for Makers] or [https://www.alibre.com/atom3d/ Alibre Atom3D] which are both available on the laser-room computer. Autodesk [https://www.autodesk.com/products/fusion-360/personal Fusion 360] offers a free license for hobbyist use].
  
 
Other options which are FOSS include:
 
Other options which are FOSS include:
* [http://openscad.org/ OpenSCAD] is the more mature of the two programs. It uses a scripting language to define a model using CSG.
+
* [http://openscad.org/ OpenSCAD] uses a text-based scripting language to define a model, making it distinct from other CAD software. It is great for making parametric parts, where a user can easily modify critical dimensions.
* [http://www.mattkeeter.com/projects/antimony/3/ Antimony] is a new program, released in Spring 2015 as a visual approach to CSG. While it is easier to use, its STL export is considerably cruder (it uses a naive algorithm for creating models).
+
* [http://www.mattkeeter.com/projects/antimony/3/ Antimony] is another procedural modeling software, which uses an interconnected graph of nodes to define geometry (rather than plain text). It is no longer receiving updates.
 
* [http://solvespace.com/ SolveSpace] is a constraint-based, parametric CAD program. It has the advantage of having a more traditional CAD interface, but there is a bit of a learning curve; going through the tutorials on the program's website is highly recommended.
 
* [http://solvespace.com/ SolveSpace] is a constraint-based, parametric CAD program. It has the advantage of having a more traditional CAD interface, but there is a bit of a learning curve; going through the tutorials on the program's website is highly recommended.
 
+
* [https://www.freecad.org/ FreeCAD] is a constraint-based, parametric CAD program. Its interface is usually considered more difficult, but recent updates have improved the experience. It is a very powerful software with many built-in tools.
Alternatively, you can download an STL file from an online 3D printing repository like [[https://www.youmagine.com/|YouMagine]] or [https://www.thingiverse.com/ Thingiverse].
 
 
 
=== GCode Production ===
 
We recommend the use of PrusaSlicer (Slic3r) for the Creality CR-10. A settings file optimized for this printer is [https://gist.github.com/MaxBareiss/9f97218f1111aa1ae0247e9d0fbc3083 here]. The most important setting for this printer is to set the maximum acceleration limit to 500 mm/s².
 
  
 
=== Visual Troubleshooting Guides ===
 
=== Visual Troubleshooting Guides ===
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* http://reprap.org/wiki/Print_Troubleshooting_Pictorial_Guide
 
* http://reprap.org/wiki/Print_Troubleshooting_Pictorial_Guide
 
* https://www.simplify3d.com/support/print-quality-troubleshooting/
 
* https://www.simplify3d.com/support/print-quality-troubleshooting/
 
== Planned Printers ==
 
* Prusa i3 derivative
 
** Planning discussions started in early January 2015, but stalled.
 
** '''Current components:''' RAMPS board, Arduino, heated bed, thermistor, user interface board, one pulley with CL2 toothed belt
 
** '''Missing components:''' Just about everything else
 
 
== Old Printers ==
 
* [[tools:3D_Printing/Printrbot Simple|Printrbot Simple Makers Kit]]
 
** '''Build Area:''' Roughly 4x4x4 inches
 
** Can work PLA and ABS (has heated bed)
 
** '''Workflow:''' Connected to computer with Cura 2.4 series slicer.
 
** Portable; can run on battery power
 
*** Requires at least 12V @ 4A for running without heated bed
 
*** Running the heated bed on battery power has '''not''' been tested and is not allowed at present.
 
** '''Currently non-functional''' -- Power supply is dangerously unshielded.
 
* Solidoodle 3
 
** '''Build Area:''' Roughly 8x8x8 inches
 
** Has a heated bed
 
** Fully enclosed with acrylic sheeting
 
** '''Currently non-functional''' -- Has issues with Y-axis traversal, thermistor issues
 
* Mbot Cube (revision 1)
 
** '''Build Area:''' Roughly 8x8x8 inches
 
** No heated bed (though one can be added)
 
** Dual extruders (though they need alignment)
 
** Workflow
 
*** Uses Proprietary MPrint software to communicate with printer via USB
 
*** Can also print from an .x3g file read from the on-board SD card reader (2 GB maximum capacity); .x3g files can be made in ReplicatorG with appropriate configuration.
 
** '''Currently non-functional''' -- Bed alignment system is damaged; new print bed needed
 

Revision as of 17:13, 8 May 2024

Current Printers

  • Bambu Lab P1P
    • Build Area: 256x256x256mm (Roughly 10x10x10 inches)
    • Materials: PLA, PETG, TPU, PVA, PET
      • 1.75 mm filament
      • Can be fitted with hardened nozzles for printing filaments with fillers (carbon, glow, wood, etc.)
      • Supports PA, PC, ABS, ASA with addition of enclosure
  • Creality CR-10 S4
    • Build Area: 400x400x400 mm (Roughly 15.75x15.75x15.75 inches)
    • Materials: PLA and PETG
      • Can be fitted with hardened nozzles for printing filaments with fillers (carbon, glow, wood, etc.)
  • Elegoo Saturn 8k
    • Build Area: 219x123x210 mm (Roughly 8.6x4.8x8.3 inches)
    • Materials: 405nm UV Resin

Hacksburg Filament and Resin

These materials are available for members to use for small projects. Please purchase your own materials for larger projetcs.

  • Bambu PLA Green
  • ERYONE PLA Plus Black
  • ABS filament (green) -- ~1kg spool

Usage and Workflow

The general process for 3D printing is outlined below. Please see the individual printer pages for full details.

  1. Convert 3D model to STL or download an STL file from online.
  2. "Slice" the STL file to generate GCode (or resin printer file).
  3. Prepare the printer
    • Load filament
    • Clean/level the bed
    • Change nozzles if needed
  4. Send the GCode to the printer.
  5. Monitor the printer until the print is completed.

3D Modeling/STL creation

We currently recommend SOLIDWORKS for Makers or Alibre Atom3D which are both available on the laser-room computer. Autodesk Fusion 360 offers a free license for hobbyist use].

Other options which are FOSS include:

  • OpenSCAD uses a text-based scripting language to define a model, making it distinct from other CAD software. It is great for making parametric parts, where a user can easily modify critical dimensions.
  • Antimony is another procedural modeling software, which uses an interconnected graph of nodes to define geometry (rather than plain text). It is no longer receiving updates.
  • SolveSpace is a constraint-based, parametric CAD program. It has the advantage of having a more traditional CAD interface, but there is a bit of a learning curve; going through the tutorials on the program's website is highly recommended.
  • FreeCAD is a constraint-based, parametric CAD program. Its interface is usually considered more difficult, but recent updates have improved the experience. It is a very powerful software with many built-in tools.

Visual Troubleshooting Guides

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