Difference between revisions of "Tools/3D Printing"
< Tools
Jump to navigation
Jump to search
(→Current Printers) |
(→Current Printers) |
||
Line 12: | Line 12: | ||
− | * Anycubic Photon | + | * [[tools/3D_Printing/Anycubic Photon|Anycubic Photon]] |
== Current Filament Available == | == Current Filament Available == |
Revision as of 16:36, 7 May 2021
Contents
Current Printers
- Creality CR-10 S4
- Build Area: 400x400x400 mm (Roughly 15.75x15.75x15.75 inches)
- Filament diameter: 1.75mm
- Has a heated bed (heats slowly, max 75 C, can be raised by insulated bed or building enclosure)
- Can work PLA
- Workflow: OctoPrint
- Settings:
- Prusaslicer (Slic3r): https://gist.github.com/MaxBareiss/9f97218f1111aa1ae0247e9d0fbc3083
- To upload files go to: File > Import > Import Config Bundle
- Cura: https://gist.github.com/MaxBareiss/dffded4b12485aaded61313ad5667154
- Prusaslicer (Slic3r): https://gist.github.com/MaxBareiss/9f97218f1111aa1ae0247e9d0fbc3083
Current Filament Available
- PLA filament (transparent blue) -- ~1kg spool
- ABS filament (green) -- ~1kg spool
Usage and Workflow
The 3D printer is controlled via the desktop computer set up next to it. The basic workflow is this:
- Take a 3D model and convert it to an STL file.
- The STL file then must be converted to GCode.
- The GCode is sent to the printer for printing.
3D Modeling/STL creation
We have three CAD programs installed for creating 3D models. Two rely on the principle of [[wp>Constructive solid geometry|Constructive Solid Geometry]] (CSG).
- OpenSCAD is the more mature of the two programs. It uses a scripting language to define a model using CSG.
- 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).
- 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.
Alternatively, you can download an STL file from an online 3D printing repository like [[1]] or Thingiverse.
GCode Production
We recommend the use of PrusaSlicer (Slic3r) for the Creality CR-10. A settings file optimized for this printer is here. The most important setting for this printer is to set the maximum acceleration limit to 500 mm/s².
Visual Troubleshooting Guides
- http://support.3dverkstan.se/article/23-a-visual-ultimaker-troubleshooting-guide
- http://reprap.org/wiki/Print_Troubleshooting_Pictorial_Guide
- https://www.simplify3d.com/support/print-quality-troubleshooting/
Webcam Access
There are three options to access the webcam to view 3D prints in progress.
- Static View: Click Here (This does not work on Hacksburg WiFi, refresh the page for an updated image.
- Basic Stream:
- Open VLC and navigate to Tools>Preferences.
- In the bottom left corner of the Preferences window under "Show Settings" click the "All" option.
- In the search box, type "Image Demuxer" and select the "Image" option.
- Change the "Duration in Seconds" option to 1.00 seconds and click save.
- Turn on looping.
- Select Media>"Open a Network Stream" and type http://216.252.200.71:65413//cgi-bin/CGIStream.fcgi?cmd=snapPicture2&usr=Snap&pwd=123snap! into the Network URL box.
- Click Play and the video should begin playing at ~1 FPS
- Note: This method is a workaround if you do not wish to install the IPCWebComponents.exe required for full camera control. That method provides better video quality and the option to pan/tilt/zoom.
- Full Control: Click Here Visit from Internet Explorer initially to download and install IPCWebComponents.exe. The interface can then be accessed from other browsers (does not appear to work in Firefox).
- User: Operator
- Password: 123snap!
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
- 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