Difference between revisions of "FFF Printer Tuning for Accuracy"
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+ | By accounting for a variety of factors that affect the accuracy of our printing process, we can dial in our 3D printers to get a fairly sufficient level of accuracy for functional, mechanical prototypes. Here's a breakdown of the factors to tune. | ||
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==Extrusion Width== | ==Extrusion Width== | ||
Even though nozzles come in fixed sizes, the resulting extruded line is almost always slightly thicker after it has been deposited onto the forming part. This happens for a variety of reasons. But the main reason is that each subsequent layer is ''squished'' onto the prior layer with some overlap to ensure that the two layers fuse. Accounting for this thickness is key to getting accurate feature sizes, especially for small holes. | Even though nozzles come in fixed sizes, the resulting extruded line is almost always slightly thicker after it has been deposited onto the forming part. This happens for a variety of reasons. But the main reason is that each subsequent layer is ''squished'' onto the prior layer with some overlap to ensure that the two layers fuse. Accounting for this thickness is key to getting accurate feature sizes, especially for small holes. |
Revision as of 13:09, 22 September 2019
By accounting for a variety of factors that affect the accuracy of our printing process, we can dial in our 3D printers to get a fairly sufficient level of accuracy for functional, mechanical prototypes. Here's a breakdown of the factors to tune.
Extrusion Width
Even though nozzles come in fixed sizes, the resulting extruded line is almost always slightly thicker after it has been deposited onto the forming part. This happens for a variety of reasons. But the main reason is that each subsequent layer is squished onto the prior layer with some overlap to ensure that the two layers fuse. Accounting for this thickness is key to getting accurate feature sizes, especially for small holes.
Measuring Extrusion Width
We can measure extrusion width from a flat surface of a single-layer thick wall. To create such a test object, simply print a cube with an open top in vase mode. From here, measure the wall with a pair of calipers.