Tools/3D Printing: Difference between revisions

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 * [[tools/3D_Printing/Bambu Lab P1P|Bambu Lab P1P]]
 ** '''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.)
 *** 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]]
 ** '''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]]
 ** '''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
 == 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 ===
-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:
-* [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.
+* [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/s&sup2;.
 === Visual Troubleshooting Guides ===
@@ Line 54: / Line 51: @@
 * http://reprap.org/wiki/Print_Troubleshooting_Pictorial_Guide
 * 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