3D FDM Printing

This guide will provide an introduction to Fused Deposition Modelling (FDM) 3D printing using either of the Prusa brand printers we have in HatchLabs:

Before you start: download and install PrusaSlicer

Introduction

In HatchLabs we have two different types of 3D printers: FDM printers and Stereolithography apparatus (SLA) printers. You can find out more about inductions on the SLA printers on the homepage. In this guide we will cover FDM 3D printing.

In FDM printing, solid thermoplastic material is deposited in layers to create a 3D printed object. During printing, the plastic filament is fed through a hot extruder where the plastic gets soft enough that it can be precisely placed by the print head. The melted filament is then deposited layer by layer in the print area to build the workpiece. (source)


(image source)
FDM printing is a great way to learn about 3D printing and a good tool for prototyping. That being said, don’t assume that you will create smooth artworks and prints right away. Understanding more about the print process comes with experimenting, and you are encouraged to make many (small) tests.

Important things you should know

Resources

Materials for 3D FDM Printing

In HatchLabs the main material we use with the Prusa Printers is PLA (polylactic acid).
This is one of the most widely used 3D printing materials and also the recommended material for beginners.

This material is free to use and students are expected to exercise common sense and moderation in their use of consumables (as part of HatchLabs’ consumables fair use policy included in the code of conduct). If you want to use filament not provided by the lab you must contact a hatchlabs technician first.


Tutorial

We offer scheduled inductions on the 3D FDM printers which will guide you through modelling and printing your first print. We are happy for students to complete the induction independently, and ask that you follow the 3D printing modelling tutorial in Fusion 360 or Tinkercad, and show us in person/send us a picture of your 3D print to hatchlabs@doc.gold.ac.uk

Glossary

Modelling

In order to print using the 3D printers we first need a 3D file (.obj or .stl). These can be designed using many different softwares, and they can also be downloaded from the web. Your first print must be less than 20 minutes long, so design/download something small and uncomplicated. As we are printing an object from the bottom up you need to consider:

Please watch this video before downloading/ designing your first model: FDM 3D Printing: How to prototype like a pro (in 10min!)

If you are experienced with 3D modelling please use whichever software you are comfortable with. If not, here are a couple of tutorials/ resources to get you started with designing/ downloading your model:

Slicing

Slicing is the process by which the software (we use Prusa Slicer) converts our 3D Model (.obj, .stl file) into "sliced" individual layers, and a tool path for the printer to follow (.gcode file).

  1. Open Prusa Slicer

  2. Follow the steps in the configuration wizard, and select Prusa i3 MK3S with 0.4mm Nozzle. And Prusa Mini+ With 0.4mm Nozzle.

  3. Click the Cube with a Plus sign and open your STL File.

  4. Select the appropriate printer by selecting from the drop down list of printers in the top left of the app (printer selection panel on the right).
    fig.1

  5. Orientation. Click on the model and use the Rotate tool (left panel, 3rd from the top) to rotate your object if necessary.
    The orientation of the model above makes sense because:

    • minimal/no overhangs: overhangs are parts of the print that extends out past the previous layer by more than 45 degrees, and so will be "unsupported" (see below for more information on supports/ printing with overhangs)
    • the biggest possible surface is directly on the buildplate and will be our first layer (i.e the base of the pyramid is the biggest, flat section of the model)

If your model does require support in the future then you can select Support under the print settings to generate support (for specific settings please see below). Supports are extra pieces of plastic printed that structurally support any overhangs/ unsupported parts of your print.

  1. Set the print quality using the presets in the top right.
  2. fig.1
  3. Print settings A thicker layer height will print faster, but the print will be rougher and will be less accurate to what was designed. We recommend using "0.25mm DRAFT" for geometric, test prints and using "0.15mm QUALITY" for more complicated, sculptural prints.
  4. infill: 20% - this defines the amount of filament used inside the print. The more infil, the longer the print will take but the more solid it will be.
  5. fig. 2

    1. Check estimated time (right bottom corner of settings panel). We want to make a small print for the first time, less than 20 minutes.
    1. Take a USB stick from one of the printers that isn't printing and insert it into your computer.

    2. fig. 3

    3. Select Export G-Code and save the file to the PRUSA_MINI USB Stick

    4. Eject the USB stick and let’s go to the 3D printers.

    Printing

    Before you press print
    Starting Print
    Starting your print
    1. Place the USB stick in the 3D printer, the USB port is near the back on the right hand side.
    2. The printer should automatically pop up an image of your print. If this is correct press Print using the jog wheel to navigate and clicking the jog wheel to select. If the image does not pop up or is incorrect, select Return, and then select print to choose from a list of files on the USB Stick.
    3. Watch the Printer heat and up and begin printing. After the Nozzle lowers the printer will proceed to check the build plate in a number of places before printing a test line at the front of the bed.
    4. Continue to watch your print for the first 10 minutes. We need to ensure the filament is extruding properly and the printing is sticking to the bed.
    When the print is done
    Removal of Print
    Measuring your print

    We recommend using a pair of calipers to measure/ inspect your 3D prints. These are also very useful for when you are modelling objects that have specific dimensions.

    Calipers

    FAQs

    Q: There’s no filament coming out of the nozzle?
    A: Is there enough filament? Show the printer to a technician and you can debug together/ email us at hatchlabs@doc.gold.ac.uk

    Q: The print started off fine and is now printing in mid air!
    A: The printer might be exposed to cold air conditioning which cools the build plate. Inform a technician.

    Q: My material warped and lifted slightly as it printed.
    A: In PrusaSlicer have you selected some form of build plate adhesion? This helps the print stay on the plate during printing.

    Tips and Tricks

    Please read and refer to the tips and tricks, but do not attempt any maintenance that might be suggested.