Bars are individual support elements that connect two points, one on the part, the other on the platform, on other part surfaces, or even other bars themselves.
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General parameters
| Parameter | Explanation | Notes |
|---|---|---|
| Bar contour |
See Bar contour |
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| Distance to part |
The distance between part and support. A negative value makes supports intrude into the part mesh. You can use this in conjunction with Angle at top to achieve a calculated contact patch, for instance. To calculate the appropriate value, use this simple trigonometry formula: Distance to part (negative) = (desired spot diameter - Width on end) * (Breaking point width - Width on end) / Height on end |
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| Width on part |
Sets a separate contour width for (upper) bar ends that terminate on a part surface. |
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| Width on top-side part |
Sets a separate contour width for bar ends that terminate on a part surface at their lower end. |
This is optional. To disable defining a separate width for the lower end of a bar, set this to -1. |
| Width on upper free anchor |
Bars where the upper anchors are not generated on part surface, or which are part of bouquets, are generated this wide at their upper end. Used for the individual bars in Adaptive Lattice support, for example; otherwise has no effect. |
This is optional. To disable defining a separate width for the lower end of a bar, set this to -1. |
| Width on platform |
The contour width for bar ends that terminate on the build platform surface. |
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| Breaking point |
See Breaking point |
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| Right angle on part |
Sets whether bars should have a small curve to terminate in a right angle at the supported surface, rather than terminating at whatever angle they would otherwise do. |
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| Distance to right angle |
The distance away from the supported surface after which the bar should start to curve towards the other end. |
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| Smoothing distance |
The length of subdivisions that form the curve. The shorter the section, the finer the curve is resolved, resulting in a smoother transition but also increased triangle count. |
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Junction shape
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Specifies how other bars, if there are any, transition into their respective parent bar |
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| Pad on platform |
See Pad on platform |
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| Use density map |
Applies information provided by a 3D heatmap to lighten or strengthen structures locally. |
Bar contour
| Bar contour | Notes | |
|---|---|---|
| Bar contour |
The type of cross-section for bars  From left: Cross, solid bar, solid cross, hatch (open hatch tube not shown) Cross and Hatch have no enclosed volume, so their cross sections are rendered by single beam passes. This makes them fast to trace but also comparatively weak if used in larger sizes and lower numbers per area unit. Solid bar and Solid cross have enclosed volumes but require toolpathing for their interior, and in particular can produce intersections that can lead to multiple exposure if not merged properly. Open hatch tube is identical to Solid bar except that it is explicitly handled as open support by slicing. |
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| Polygon corner |
The number of corners for the solid bar. The more corners, the more rounded the bar's cross section becomes, but also the more triangles are generated that cost processing power. |
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| Angle at top |
When set beyond 0, a pointy end is added to the normally blunt end that terminates evenly in the part surface.
Note: This point intrudes into the part mesh, so you may want to also work with
Distance to part, as well as with hatchcutting or subtraction during toolpathing to reduce or avoid unwanted duplication of toolpath at the intersection.
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| Crosswidth |
The thickness of the contours for the solid cross. |
0.01-20.00 mm |
| Radial type |
Used to create solid bars with oval cross-sections. It aligns the oval cross section by the semi-major axis with either X or Y axis, or radially away from the supported object's bounding box's center:
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| Radial factor |
Used to create solid bars with oval cross-sections. Makes them as wide as their thickness times this factor. |
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| Hatch angle |
The direction of hatch-type bar support. A direction of 0° aligns the ribbon-like bars parallel to the Y axis, and higher values rotate this direction clockwise. |
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Breaking point
Generates a section where the bar narrows and widens to create a defined breaking point near the part surface, making it easier to remove supports from the part later on.
| Parameter | Explanation | Notes |
|---|---|---|
| Breaking point |
Toggles creation of breaking points |
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| Breaking point width |
The diameter of the bar at the breaking point |
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| Width on end |
The diameter of the bar past the breaking point where it attaches to the part surface |
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| Breaking point height |
The length of the breaking point itself |
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| Height on start |
The length over which the breaking point reduces to its narrowest point |
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| Height on end |
The length over which the bar should narrow towards the breaking point, as seen from the part surface |
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| Right angle on part |
Whether bars should have a small curve to terminate in a right angle at the supported surface, rather than terminating at whatever angle they arrive with |
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| Distance to right angle |
The distance away from the supported surface after which the bar should start to curve towards the other end |
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| Smoothing distance |
The length of subdivisions that form the curve. The shorter the section, the finer the curve is resolved, resulting in a smoother transition but also increased triangle count. |
Pad on platform
A pad is a widened cross section at the platform end of a bar support to reinforce adhesion to the platform surface
| Parameter | Explanation | Notes |
|---|---|---|
| Pad on platform |
Toggles pad creation |
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| Pad width |
The width of the created pad |
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| Pad height |
The height, or thickness, of the created pad |
Pads are only generated when the whole bar's Z length is at least 2.5 times the pad height. |
Taper angle ( renamed from
Pad slope)
|
The transition from pad to bar is typically angled. This parameter makes the angle adjustable. |
The taper section is included in the pad height. |