PETG FILAMENT WHITE, 1KG spool with 1.75mm diameter SPECIAL PROMOTION!

PETG filament for your 3D printer. You get a tough, durable and versatile material. This filament has high impact strength, good flexibility and very low material shrinkage. Thanks to its material properties, this PETG filament can be easily processed on many FFF/FDM 3D printers.

     Material properties of this PETG filament: High-quality PETG filament for your 3D printer
     Achieve impressive surfaces with an elegant look – transparent or slightly transparent depending on the color or wall thickness
     This PETG filament can be easily processed over a wide temperature range
     High material quality and perfect winding of the material on every roll

This PETG filament is made from PET treated with glycols. This makes the super PETG filament even clearer, stronger and more resistant than filament made from normal PET.
Good layer adhesion & low warping

This PETG filament is characterized by very good adhesion between the layers. This and its low tendency to warp make it very easy to process. If you have a 3D printer with a heated build platform, we recommend a temperature setting of 40-60°C.
3D prints packaging, objects and components in top quality

Without a doubt, EasyPrint PETG is one of the best filaments for your 3D printer. 3D prints packaging, objects and components with excellent quality and a noble surface. The filament is quality checked throughout the entire manufacturing process. This means we ensure that you receive a perfect filament spool with every order. Finished objects with excellent quality and a noble surface additive.
3D prints PETG in a wide temperature range

3D prints PETG thanks to high material quality and purity of additives in a very wide temperature range. The recommended extruder temperature is between 210 - 235 ° C.
Perfectly wound filament spools

Easily 3D print with breathtaking surfaces & material properties

Buy this high-quality PETG filament now at a very good price. Easily create 3D objects, art objects, design objects and components with breathtaking surfaces and material properties.
Material data:

     Available material diameter: 1.75 mm
     Density: 1.27 g/cm³
     Extruder/nozzle temperature: 210-235°C (recommended: 215°C)
     Bed temperature: Not necessary (optional: 0-60 °C)
     Optimal print bed adhesion: BuildTak, PEI, glass overlay with adhesive
     Recommended processing speed: 15-100 mm/s
     Weight of material: 1kg


Printing PETG (polyethylene terephthalate glycol) with a 3D printer requires a little more attention than printing PLA (polylactide), but with the right settings and procedures it is quite doable. Here are some best practices to print PETG successfully:

     Print Bed Preparation: PETG adheres well to heated print beds. Make sure your print bed is clean and use adhesives such as hairspray or tape if necessary. A heated print bed temperature of around 60-80°C is recommended.

     Nozzle temperature: The ideal nozzle temperature for PETG is usually between 230°C and 250°C. This can vary depending on the brand and composition of the PETG, so it is advisable to follow the manufacturer's recommendations and experiment with the temperature settings.

     Printing Speed: Reduce printing speed compared to PLA. Start at a lower speed, about 50-60% of normal PLA speed, and gradually increase it to check the quality and adhesion.

     Layer height: A layer height of about 0.2-0.3mm is suitable for PETG. Finer layer heights can cause difficulties as PETG tends to solidify slowly and overlaid layers cannot bond well.

     Cooling: Reduce cooling compared to PLA. PETG requires less cooling to prevent warping and warping during printing. Some printers allow you to turn off cooling for the first layer bed and then gradually increase it for the layers above.

     Nozzle to print bed gap: Make sure the nozzle to print bed gap is set correctly for the first layer. This distance should be slightly larger than PLA to avoid excessive adhesion.

     Enclosure: Using a pressure vessel or cover can help stabilize the printing environment and minimize temperature fluctuations, which is particularly important for larger parts or those with thin walls to prevent warpage.