![]() ![]() Let's see how you can set the temperature changes using different slicers. I recommend selecting the temperature in the middle of the range to begin with. This is usually a sign of a good quality filament. In some cases, the entire tower might look nearly identical. Also, the lower the printing temperature the better bridging you can achieve. The ideal temperature is the lowest where the layers are still bonded together strongly (try breaking it apart) and where you can notice the least amount of artefacts. When your tower is finished, examine the overhangs, bridging and stringing. Besides retraction settings, stringing is dependent on printing temperature so you might as well test it at the same time.įor PLA, I recommend testing temperatures in the range from 190☌ to 215☌. I recommend it because the sections are evenly spaced and it includes a stringing test. We'll be using this temperature tower by Jan Petersen from Thingiverse. Unfortunately, setting the temperature changes isn't obvious or even impossible with some slicers. The easiest way to quickly test a range of temperatures is by printing a temperature tower. This temperature can differ based on the hotend design, filament manufacturer, material type or even ambient temperature. ![]() ![]() One part of 3D printer's calibration is finding the optimal printing temperature. I am currently working on a script that will inject the temperature changes in your gcode.
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