![]() ![]() Material consumption and print time of this infill are by far the lowest of all the supported infills. ts primary function is to support top layers by saving as much material as possible, it doesn’t improve any mechanical qualities of the model. This infill gets automatically denser depending on the distance to the nearest top layer (the infill density increases only in the Z-axis). ![]() This makes the infill sturdier and it stabilizes the extrusion flow at the start of an infill line. The Adaptive Cubic infill works by refining those cells of an octree, that contain any object triangle. The result is shorter print time and lower filament consumption while maintaining great support for top layers and similar mechanical properties. The print will have denser infill at the top, bottom and around all sides, but it will have lower density near the center of the volume. This is especially useful for large prints with a big internal volume. Unlike simple cubic infill, this infill gets automatically more or less dense, depending on the distance to the nearest wall, leaving large cavities in the middle. It consists of cubes oriented corner-down where lines cross themselves in one layer. The Adaptive cubic infill works on the same principle as cubic. Print time and filament consumption does not differ from the previous infills. This way it makes numerous air pockets that might serve as heat insulation, or cause the object to float on water (with waterproof filaments such as PETG). It creates cubes oriented with one corner facing down. This is an infill with paths that cross each other within one layer.
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