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3D Printing: Graph-based toolpath optimization
In this video, I am introducing a graph-based toolpath optimization method designed to significantly reduce material waste and print time for single-nozzle, multi-color 3D printing. By moving away from traditional layer-wise fabrication and treating material regions as nodes in a dependency graph, we can implement *"layer batching".* This allows the printer to process multiple layers of the same color before switching the material, significantly reducing the number of tool changes.
🔗 *Resources & Further Reading:*
- _Read the full story on Medium:_ https://medium.com/@apetsiuk
- _Follow the GitHub:_ https://github.com/apetsiuk/PrusaSlicer — The project is under active development
- _Watch Part 1 (Previous Video):_ https://www.youtube.com/watch?v=RipTRgQQOnU
- _Academic Paper:_ http://dx.doi.org/10.2139/ssrn.4655383 https://doi.org/10.1108/RPJ-01-2024-0050
*What’s Covered in This Video:*
- _The Problem:_ Why traditional slicing leads to inefficient "zig-zag" tool changes and oversized wipe towers?
- _The Solution:_ Representing a 3D model as a dependency graph and using random jumps to find the most efficient printing path.
- _Real-World Results:_ A side-by-side comparison showing a reduction from 28 to 15 tool changes on a sample model.
- _Software Compatibility:_ This method is compatible with Slic3r-based software, including PrusaSlicer, OrcaSlicer, SuperSlicer, and Bambu Studio.
*Chapters:*
0:00 - Introduction to Tool Change Optimization
2:25 - The Concept: Layers vs. Independent Regions
6:00 - Creating a Dependency Graph
9:25 - Traditional vs. Batched Slicing
14:00 - Optimizing the Fabrication Path
15:03 - Potential Drawbacks & Aesthetic Considerations
15:42 - Conclusion & Final Results
#3DPrinting #MultiMaterial #Slicing #PrusaSlicer #Slic3r #Optimization #AdditiveManufacturing #Engineering #OpenSource #Toolpath #OrcaSlicer #LayerBatching
Видео 3D Printing: Graph-based toolpath optimization канала Aliaksei Petsiuk
🔗 *Resources & Further Reading:*
- _Read the full story on Medium:_ https://medium.com/@apetsiuk
- _Follow the GitHub:_ https://github.com/apetsiuk/PrusaSlicer — The project is under active development
- _Watch Part 1 (Previous Video):_ https://www.youtube.com/watch?v=RipTRgQQOnU
- _Academic Paper:_ http://dx.doi.org/10.2139/ssrn.4655383 https://doi.org/10.1108/RPJ-01-2024-0050
*What’s Covered in This Video:*
- _The Problem:_ Why traditional slicing leads to inefficient "zig-zag" tool changes and oversized wipe towers?
- _The Solution:_ Representing a 3D model as a dependency graph and using random jumps to find the most efficient printing path.
- _Real-World Results:_ A side-by-side comparison showing a reduction from 28 to 15 tool changes on a sample model.
- _Software Compatibility:_ This method is compatible with Slic3r-based software, including PrusaSlicer, OrcaSlicer, SuperSlicer, and Bambu Studio.
*Chapters:*
0:00 - Introduction to Tool Change Optimization
2:25 - The Concept: Layers vs. Independent Regions
6:00 - Creating a Dependency Graph
9:25 - Traditional vs. Batched Slicing
14:00 - Optimizing the Fabrication Path
15:03 - Potential Drawbacks & Aesthetic Considerations
15:42 - Conclusion & Final Results
#3DPrinting #MultiMaterial #Slicing #PrusaSlicer #Slic3r #Optimization #AdditiveManufacturing #Engineering #OpenSource #Toolpath #OrcaSlicer #LayerBatching
Видео 3D Printing: Graph-based toolpath optimization канала Aliaksei Petsiuk
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21 января 2026 г. 12:03:57
00:16:09
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