PETG Quick Start Guide
Quick Start Guide:
PETG Filament
Overview
PETG is a Glycol Modified version of Polyethylene Terephthalate (PET), which is commonly used to manufacture plastic drink bottles. This semi-rigid material is highly impact and chemically resistant, but its surface is slightly softer than other materials. PETG benefits from great thermal properties, allowing it to cool efficiently with almost negligible warpage making it great for tough parts when 3D printing with a setup without an enclosure.
The mechanical and visual properties of PETG make it a highly useful material. As opposed to beginner-friendly materials such as PLA and PLA+, PETG prints best within a tighter tolerance range of settings, making it slightly less forgiving.
For more information on what PETG is and what it’s good for, check out our Introduction to PETG.
Pros |
Cons |
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| ✔️ | Great chemical and weather resistance | ❌ | Wet PETG filament can produce parts with fine stringing on the part surface | |||
| ✔️ | Sticks well to the bed with negligible warping | |||||
| ✔️ | Odourless while printing | |||||
Hardware Requirements
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Enclosure |
Heated Bed |
Hardened |
Fan |
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| ✔️ | ✔️✔️ | ✖️ | ✔️✔️ |
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Fume |
Direct |
High Temp |
Filament |
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| ✔️ | ✖️ | ✖️ | ✔️ |
Printing Settings
As opposed to printing in other materials, with PETG you will have to pay greater attention to the following settings when 3D printing in PETG:
Extruder Temperature
-↓ Extruder Temperature ↓ Stringing - Will decrease at temperatures <220°C as the molten filament will have a higher viscocity, leading to a neater print. ↓ Oozing - See above. ↑ Underextrusion - Can happen at temperatures of <220°C as your printer simply can't melt the filament fast enough to keep up with the filament feed rate. Our tip: Before adjusting your extruder temperature any lower than <220°C, try adjusting your retraction, coasting and travel speed. |
220°CsSet your extruder temperature to 220°C. Increase the printing temperature if you are experiencing underextrusion or if your extruder gear is slipping. 🛈
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+↑ Extruder Temperature ↑ Stringing - Increases at temperatures <240°C as the molten filament will have a lower viscocity, flowing more freely. ↑ Oozing - See above. ↓ Surface Resolution- At temperatures of <240°C leading to sloppy layers and an increase in artifacts like stringing and oozing. |
Bed Temperature
-↓ Bed Temperature ↓ Part Adhesion - Too little heat in the bed will cause your part to cool to quickly, curl and dislodge from the bed. |
70 - 80°CsSet your bed temperature to 80°C for your first layer to ensure your first layer sticks to the bed and 75°C for the rest of the print. 🛈
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+↑ Bed Temperature ↑ Part Deformation - Too much heat will cause your part to melt into the bed, deforming the bottom layers. |
Fan Speed
-↓ Fan Speed ↑ Part Strength - Slows the cooling rate of each layer being printed. This gives the part more time to bond to the preceeding layer, resulting in increased interlayer adhesion and part strength. Helps remedy part delamination problems. PETG can be printed with fan speed set to 0%. ↓ Surface Resolution - Decreasing the fan speed will result in your PETG staying more molten for longer. This can result in sloppy layer lines and an increase in artifacts like stringing and burnt looking spots resulting from oozing. |
50%Start at 50% fan speed for a good balance between part strength and surface resolution 🛈
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+↑ Fan Speed ↓ Part Strength - Increases the cooling rate of each layer being printed. This gives the part less time to bond to the preceeding layer, resulting in less interlayer adhesion and a decrease in part strength. |
Print Speed
-↓ Print Speed | ↑ Print Time ↑ Layer Adhesion - Gives your layers more time to bond, increasing interlayer adhesion. ↑ Part Deformation - Too much thermal energy may be pumped into your part, slowing down the cooling and resulting in sloppy layers ↓ Travel Speed | ↑ Print Time ↑ Stringing - More time spent travelling results in more molten material leaking out of the nozzle of your printer leading to more stringing |
30 - 50mm/sPrint Speed: Start at 50mm/s and only increase the print speed if you are comfortable with the print quality. Printing your first layer at 25mm/s will help keep your part stuck to the bed. 🛈
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+↑ Print Speed | ↓ Print Time ↓ Layer Adhesion - Gives your layers less time to bond, decreasing interlayer adhesion. Aim to keep print speeds under 60mm/s for best results. ↑ Extruder Skipping - Can occur when the printer can't melt and print filament fast enough ↑ Travel Speed | ↓ Print Time ↓ Stringing - Less time spent travelling results in less molten material leaking out of the nozzle of your printer decreasing stringing |
Retraction Distance
-↓ Retraction Distance ↑ Stringing -Shorter retraction distances causes a smaller a drop in the pressure inside the nozzle. With distances less than 3mm, it may not be enough to stop molten filament from leaking out of your nozzle. ↓ Oozing - See above. |
3 - 6mmFor Bowden systems: Start with a retraction of 3mm. Increase retraction to 4mm if needed. This distance may be higher if you have a longer bowden tube. For Direct Drive systems: Start with a retraction of 1mm. Increase retraction distance to 2mm if needed. Our Tip: Tune retraction distance up/down by 0.5mm increments. Aim to keep the distance between the 0.5 - 6mm. 🛈
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+↑ Retraction Distance ↓ Stringing - Causes a larger a drop in the pressure inside the nozzle, stopping more filament from leaking out of your nozzle. ↓ Oozing - See above. ↑ Underextrusion - Excessive retraction can cause a delay before your nozzle resumes printing causing underextrusion. Our tip: If your retraction distance is at the upper limit, try adjusting your retraction speed, coasting & travel speed. |
Retraction Speed
-↓ Retraction Distance ↑ Stringing - Lower retraction speeds cause a smaller drop in the pressure inside the nozzle which may not be enough to stop filament from leaking out of your nozzle. ↑ Oozing - See above. |
45mm/sStart with a retraction speed of 45mm/s. Our Tip: Increase retraction speed by 5mm/s increments until you notice diminishing in returns in stringing and oozing. 🛈
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+↑ Retraction Speed ↓ Stringing - Causes a larger a drop in the pressure inside the nozzle, stopping more filament from leaking out of your nozzle. ↓ Oozing - See above. ↑ Filament Slip - Excessivly high retraction speeds can cause the feed gears to slip, causing extrusion problems. Our tip: If your retraction distance is at the upper limit, try adjusting your retraction speed, coasting & travel speed. |
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The internet is filled with conflicting information regarding different settings. It’s critical to understand not all 3D printers are built the same. This makes giving exact recommendations for settings difficult as settings for one printer may not necessarily carry over to others. |
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Best Practices
In order to print PETG successfully, having the correct the hardware setup and temperature settings outlined above are only half the battle. Here are some best practices to ensure reliable PETG prints.
+ Start with the lowest temperature
+ Calibrate retraction settings to reduce stringing
+ Enable coasting settings to reduce blobs
+ Increase travel move speed
+ Keep Your Filament Dry
+ Use Hairspray or Glue as a Release Agent
+ Allow for Additional Z-Offset Distance
Pro Tips
+ Adjust One Setting At A Time
+ Adhesion Hack
For a more in-detail look at the best practices when 3D printing in PETG, check out our next guide in this series PETG Filament Ultimate Printing Guide.
Applications
Outdoor Applications
Live Hinge Parts
Snap Fit Components
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What are the best settings for 3D printing in HIPS? Find out in our Quick Start Guide which contains the best settings AND explanations for printing in HIPS.