Difference between revisions of "3D Printing"

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! !! [[RepRap Prusa Mendel]] !! [[Ultimaker 2]] !! [[Rostock Max v2]]
 
! !! [[RepRap Prusa Mendel]] !! [[Ultimaker 2]] !! [[Rostock Max v2]]
 
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| Build volume || 180 x 180 x 100ish mm || 223 x 223 x 205 mm || 280 (circle) x 375 mm
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| Build volume || 180 x 180 x 100ish mm || 223 x 223 x 205 mm || 260 (circle) x 375 mm
 
|-
 
|-
 
| Max Nozzle Temperature || 250 C || 250 C || 295 C
 
| Max Nozzle Temperature || 250 C || 250 C || 295 C

Revision as of 12:52, 6 June 2016

About

3D printing is an additive manufacturing process that allows for the creation of real-world, tangible objects from 3D virtual models. MakeICT maintains three separate 3D printers, a RepRap Prusa Mendel: an Ultimaker 2, and a Rostock Max V2. Full details and specifications can be found on the individual equipment pages.

RepRap Prusa Mendel Ultimaker 2 Rostock Max v2
Build volume 180 x 180 x 100ish mm 223 x 223 x 205 mm 260 (circle) x 375 mm
Max Nozzle Temperature 250 C 250 C 295 C
Filament types PLA PLA, ABS, CPE PLA, ABS
Filament diameter 1.75 mm 2.85 mm 1.75 mm
X/Y resolution 0.125 mm 0.125 mm 0.1 mm
Z resolution .0039 mm 0.02 mm 0.0125 mm
Nozzle diameter 0.35 mm 0.4 mm 0.5 mm
Heated bed No Yes Yes (it's slow!)

Machine Access Policy

Use of the 3D printers requires attendance in a 3D printer certification workshop or certification from an approved peer-certifier.

  • Any member who has been certified to use the 3D printer may peer-certify other members
  • Certification instruction must at least include
    • Fundamental knowledge of each printer's working principles
    • Proper use and control of each printer
    • Software workflow
    • How to change filament
    • How to pay for material

Filament Fund

Printing with filament provided by MakeICT costs $0.04 per gram. After printing, please weigh your print using the provided scale and put the appropriate amount of money in the filament fund jar. If you have any requests for new colors/types of filaments, you can write them on the same jar.

Workflow

Note: This process is under development and may change. Check back here for updates if something changes.

Slicing

Slicing is the process of converting an STL file to the G-Code required to run the printer.

Any slicer with an appropriately configured profile can be used to generate G-Code to run the machines. We have setup Slic3r with profiles for each machine on the design computer in the Fab Lab, and are working to configure the same for Cura. These profiles will be uploaded to the Wiki.

Slic3r has native support for uploading to Octoprint, just hit the 'Upload to printer' button in the 'Plater' tab. In Cura just export the G-Code file and upload it using the file browser in Octoprint.

When slicing, be sure to use the correct profile for the machine you intend to print on. G-Code generated for one machine WILL NOT work properly on the others.

Printing

Each printer can be run using Octoprint. Thorough instructions on this interface can be found on the Octoprint page. The Ultimaker also has a built-in interface for printing from an SD card. Instructions for that interface can be found on the Ultimaker 2 Wiki page.

The printers can be reached at the following addresses while connected to the network at MakeICT:

The username and password are 'maker'. To run a print upload your G-Code file using the file browser on the bottom left of the page, then click the print button when the file is done uploading.

General Use Tips

  • When changing from a filament that prints hotter to one that prints cooler (e.g. ABS to PLA) you should do a cold pull to remove the old plastic that is lining the melt chamber. Otherwise there will likely be problems with underextrusion due to the unmelted plastic.

3D Printer Certified Users

To see certified users expand this section --->