Packing is used to arrange multiple parts in the build space in as little space as possible, while avoiding collisions and interlocking problems. 2D packers are used for processes that require supports.
2D Packing by Shape
Packing by Outbox
Packing by Simple Outbox, arranges parts automatically in the build space to avoid collisions, using the part outbox as a reference. You can select 2D or 3D packing, to see if the parts fit on the tray. This method is generally the fastest, because it simply packs part outboxes. To maximize the part density, make sure you minimize the outbox for each part.
3D Packing - Scanline
The Scanline packer is best suited to packing a collection of parts that exhibit a wide range of shapes and sizes, such as skeleton bones. During the packing process, the parts rotate as necessary, and according to user-defined settings, in order to find the best orientation to enable more dense packing. With this packer, once you start packing, the calculations continue until they are finished. You either wait until the end, or cancel the process.
When parts are packed, it is possible for parts to become interlocked, with no collision warnings if the parts don't touch. While the parts can be moved apart in the software, once the parts are sintered they can not be separated. Interlocking protection should be turned on if the shapes are such that interlocking is possible.
3D Packing - Monte Carlo
The Monte Carlo packer is best suited to cases that include one or two vital and potentially expensive part(s) that are aligned carefully in the build space, surrounded by many small, less important parts. During the packing process, if allowed by the settings, the parts are rotated at the start, but then not again. The process is similar to random shaking, where parts move into gaps as they find them. The goal of Monte Carlo packing is to move the parts as low as possible in the build space, to minimize the Packed Platform Height.
Place the main part(s) as low to the platform as possible to avoid wasting powder, then lock them in place with the Lock Positions of selected items option. Select all the small parts for packing and start the packer. With the Monte Carlo packer, you can stop packing as soon as you are happy with the result. Or you can resume packing if you want the packer to try again.
Main part locked in build space, with smaller nuts and bolts to be packed around it
Due to how it works, the Monte Carlo packer prevents interlocking problems; during the shaking process the parts bounce off each other rather than packing more densely.
Packing settings
A range of packer settings are available. To change the packing settings for parts, right-click the part, then choose . Some apply to individual parts, some apply to individual packers:
- Per-part packing priority: Parts are packed in the order of their individual priority, from highest to lowest. Parts with the highest priority are attempted to be packed first and lowest in the build room.
- Permissible part rotation: Some packers can apply rotation to find a better fit. Allowing or disallowing certain degrees of rotation such as Z only allows finer control over the packing.
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Outbox Packing |
2D Packing |
Scanline Packing |
Monte Carlo Packing |
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|---|---|---|---|---|
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Per-part packing priority |
observed |
observed |
observed |
observed |
|
Permissible part rotation |
Outbox packing does not rotate parts to attempt a better fit. An outbox always has its sides aligned to the cardinal planes. Use Minimize Outbox to prepare parts, this may improve the packing results. |
2D packing allows one global setting of permissible Z rotation granularity for all involved parts. |
The packer's own settings for Z as well as X and Y apply. |
Individual settings per part can override the packer's own global setting. |
The setting to convert a part to and from a
no-build zone has been removed. No-build zones are now exclusively managed through the project tree.