Design Strategies for Grid Structures - DMLS 3D Printing

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Design Strategies for Grid Structures - DMLS 3D Printing

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AM_EngR

25.03.2024 at 16:33

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Hello! Perhaps someone here can help me: Are there tips for effective design strategies for grid structures for parts printed in 3D via Direct Metal Laser Sintering (DMLS) to achieve an optimal balance between strength and material reduction, while ensuring manufacturability? Any experience or resource (specific to DMLS) would be helpful. Thanks!

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Solved by Tilmann98

I usually stick to these rules, but of course they can vary depending on the specifics of a project:

Wall thickness of the lattice strands: My rule is to not choose a wall thickness below 1 mm. This ensures a good balance between stability and printability. Too thin can be problematic, especially in terms of structure and handling after printing.
Proportionality of the lattice structure: I make sure that the size of the lattice cells fits the overall part. Larger parts require larger cell sizes. This not only helps with stability, but also with keeping the part inside free of powder. Smaller cells are not always better, as they can make removing the unmelted powder more difficult.
Selection of the lattice structure: I find that not all lattice structures are equally good when it comes to saving weight while simultaneously increasing strength. Some structures simply have too high a volume. So, I always make the decision for a specific lattice structure with a view to the specific requirements of the project, considering material use and the desired mechanical properties.

These guidelines have emerged from my experience and have proven useful, but of course there is always room for adjustments and experiments, depending on the unique requirements and goals of each project.

A

AM_EngR

25.03.2024 at 16:33

Hello! Perhaps someone here can help me: Are there tips for effective design strategies for grid structures for parts printed in 3D via Direct Metal Laser Sintering (DMLS) to achieve an optimal balance between strength and material reduction, while ensuring manufacturability? Any experience or resource (specific to DMLS) would be helpful. Thanks!

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Nikolaus Mroncz

26.03.2024 at 09:13

Xometry Engineer

Hello and thank you for your question. Actually, I have already made some experiments in metal printing. I would be happy to discuss this with you. If you want, you can contact me directly (nmroncz@xometry.de). Generally, I would say that the correct proportion is crucial. A grid structure at an angle of, for example, 45° increases the strength. Also, reducing sharp edges at the docking points is important to prevent break points. Best regards

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AM_EngR

27.03.2024 at 12:32

Thank you so much for the help!

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Hello! Perhaps someone here can help me: Are there tips for effective design strategies for grid structures for parts printed in 3D via Direct Metal Laser Sintering (DMLS) to achieve an optimal balance between strength and material reduction, while ensuring manufacturability? Any experience or resource (specific to DMLS) would be helpful. Thanks!

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Tilmann98 · Accepted Answer

I usually stick to these rules, but of course they can vary depending on the specifics of a project:

Wall thickness of the lattice strands: My rule is to not choose a wall thickness below 1 mm. This ensures a good balance between stability and printability. Too thin can be problematic, especially in terms of structure and handling after printing.
Proportionality of the lattice structure: I make sure that the size of the lattice cells fits the overall part. Larger parts require larger cell sizes. This not only helps with stability, but also with keeping the part inside free of powder. Smaller cells are not always better, as they can make removing the unmelted powder more difficult.
Selection of the lattice structure: I find that not all lattice structures are equally good when it comes to saving weight while simultaneously increasing strength. Some structures simply have too high a volume. So, I always make the decision for a specific lattice structure with a view to the specific requirements of the project, considering material use and the desired mechanical properties.

These guidelines have emerged from my experience and have proven useful, but of course there is always room for adjustments and experiments, depending on the unique requirements and goals of each project.

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Free Tools

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Sheet Metal Fabrication

Injection Molding

Die Casting

Vacuum Casting

Compression Molding

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