![]() The difference in layer height here is quite obvious. Take for example the images shown below, which use the Cali Cal calibration and benchmarking print from Dezign on Thingiverse: On top of this, not all surfaces benefit equally from printing at higher resolutions. If a part takes one hour to print at low resolution of 300 microns, the exact same part at 100-micron will take about three hours. In fact, the relationship is fairly linear. However, this fine layer height also takes substantially longer to print, compared to a much coarser layer height. With a fine layer height of say, 100-micron or less, the individual layer heights will be very small and give the appearance of a smooth object. The layer height is, for the most part, an important factor in the appearance of your 3D printed item. Benchmarking print showing 200- micron in black and 100-micron in grey WHY IS A VARIABLE LAYER HEIGHT USEFUL? In this issue, we are going to show you how and when you should use this variable layer height technique. This highlighted some of the more advanced features of your slicer, including processes in order to print using a variable layer height. ![]() If you read our Exploring 3D column in Issue 020, we discussed the importance and benefits of learning Slicing techniques. Understanding variable layer heights for quick or higher quality 3D prints.
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