Why is my 3D print quality poor? Reason Explained

The quality of your 3D print depends on various factors such as the printer, the filament, the settings, and the design. If you are not satisfied with the results of your 3D printing project, you may need to troubleshoot the possible causes and find the best solutions. In this article, we will explain some of the most common 3D printing problems and how to fix them.

Printer issues

One of the first things to check when your 3D print quality is poor is the condition of your printer. Make sure that your printer is clean, well-maintained, and properly calibrated. Some of the printer issues that can affect your print quality are:

  • Bed leveling: The bed of your printer should be level and at the right distance from the nozzle. If the bed is too high or too low, the first layer of your print may not adhere well, resulting in warping, curling, or elephant foot. To level your bed, use a sheet of paper and adjust the screws or knobs until you feel a slight resistance when moving the paper under the nozzle.
  • Nozzle clogging: The nozzle of your printer can get clogged by dust, debris, or filament residue, especially if you switch between different types of filaments. A clogged nozzle can cause under-extrusion, blobbing, stringing, or poor surface quality. To unclog your nozzle, you can use a needle, a wire, or a cold pull method. You can also prevent nozzle clogging by cleaning your nozzle regularly and using a filament filter.
  • Belt tension: The belts of your printer control the movement of the X and Y axes. If the belts are too loose or too tight, they can cause inaccurate positioning, layer shifting, or ringing. To adjust your belt tension, you can use a belt tensioner, a spring, or a zip tie. You can also check your belt tension by plucking the belt and listening to the sound. A well-tensioned belt should produce a low-pitched tone.
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Filament issues

Another factor that can affect your 3D print quality is the quality and condition of your filament. Make sure that you use a compatible filament for your printer and that you store your filament properly. Some of the filament issues that can affect your print quality are:

  • Moisture absorption: Some filaments, such as PLA, ABS, and Nylon, are hygroscopic, meaning that they can absorb moisture from the air. Moisture can cause bubbles, cracks, or inconsistent extrusion. To prevent moisture absorption, you should store your filament in a sealed bag with desiccants, or use a filament dryer or a heated enclosure.
  • Diameter variation: The diameter of your filament should be consistent and match the specifications of your printer. If the diameter of your filament varies too much, it can cause over-extrusion, under-extrusion, or poor layer adhesion. To measure your filament diameter, you can use a caliper or a filament sensor. You can also compensate for the diameter variation by adjusting the extrusion multiplier in your slicer settings.
  • Color variation: The color of your filament can also affect your print quality, especially if you use translucent or light-colored filaments. Some colors, such as white, yellow, or clear, can be more prone to discoloration, burning, or degradation. To avoid color variation, you should use a lower printing temperature, a higher printing speed, or a cooling fan. You can also use a darker or opaque filament to mask the imperfections.

Settings issues

The settings of your slicer and your printer can also have a significant impact on your 3D print quality. You should optimize your settings according to the type of filament, the size and shape of your model, and the desired quality and speed. Some of the settings issues that can affect your print quality are:

  • Temperature: The temperature of your nozzle and your bed should be suitable for the type of filament you are using. If the temperature is too high or too low, it can cause stringing, oozing, warping, cracking, or poor layer adhesion. To find the optimal temperature, you can use a temperature tower, a calibration cube, or a test print. You can also refer to the manufacturer’s recommendations or the online databases.
  • Speed: The speed of your printer should be balanced with the temperature and the quality. If the speed is too high or too low, it can cause under-extrusion, over-extrusion, ghosting, or poor surface quality. To find the optimal speed, you can use a speed tower, a calibration cube, or a test print. You can also adjust the speed for different parts of your model, such as the infill, the perimeters, or the supports.
  • Retraction: The retraction of your printer is the movement of the filament back into the extruder when the nozzle moves to a different part of the model. Retraction can help reduce stringing, oozing, or blobbing. However, if the retraction is too high or too low, it can cause clogging, grinding, or gaps. To find the optimal retraction, you can use a retraction tower, a calibration cube, or a test print. You can also tweak the retraction distance and speed in your slicer settings.
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Design issues

The last factor that can affect your 3D print quality is the design of your model. You should make sure that your model is suitable for 3D printing and that it does not have any errors or defects. Some of the design issues that can affect your print quality are:

  • Overhangs: Overhangs are parts of your model that extend beyond the previous layer without any support. Overhangs can cause sagging, curling, or drooping. To avoid overhangs, you should design your model with a maximum angle of 45 degrees, or use supports or bridges to hold the overhanging parts. You can also use a cooling fan or a lower layer height to improve the overhang quality.
  • Holes: Holes are parts of your model that are intended to be circular or cylindrical, such as screw holes, bolt holes, or pipe holes. Holes can cause ovality, shrinkage, or distortion. To avoid holes, you should design your model with a slightly larger diameter than the intended size, or use a drill or a reamer to enlarge or smooth the holes after printing. You can also use a higher infill density or a lower printing temperature to reduce the hole deformation.
  • Walls: Walls are parts of your model that are intended to be thin or flat, such as panels, boxes, or cases. Walls can cause gaps, cracks, or delamination. To avoid walls, you should design your model with a minimum thickness of 0.8 mm, or use a higher number of perimeters or shells to reinforce the walls. You can also use a higher extrusion width or a lower printing speed to improve the wall quality.
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Conclusion

3D printing is a complex and rewarding process that can produce amazing results. However, it can also be frustrating and disappointing when your print quality is poor. By following the tips and tricks in this article, you can troubleshoot the most common 3D printing problems and improve your print quality. Remember to always test your printer, your filament, your settings, and your design before starting a large or important project. Happy printing!