Stacked multi-cuboid geometries with PDE Toolbox for thermal analysis
7 views (last 30 days)
Show older comments
David Naviaux
on 12 Dec 2017
Commented: David Naviaux
on 26 Feb 2023
With the PDE Toolbox, I know that I can use the multicuboid function to create a stack of cuboids for thermal analysis, each with their own thermal characteristics. However, it appears that each of the resulting cuboids must have the same width and height as all other cuboids in the stack. To more accurately represent a power semiconductor that I am analyzing, each cuboid would ideally have a different size (thickness, width, and depth). Is it possible to create such a geometry?
0 Comments
Accepted Answer
Alan Weiss
on 12 Dec 2017
No, you can currently create a stack of cuboids only with the same width and depth. They can have different thicknesses, as in this example.
Alan Weiss
MATLAB mathematical toolbox documentation
3 Comments
Alan Weiss
on 12 Dec 2017
Sure. Export STL geometry from a CAD program, then import it to your model.
But if you are asking if there is another way in PDE Toolbox, the only thing I can think of is to make 3-D geometry from a point cloud, though I am not 100% sure that this will be satisfactory.
Alan Weiss
MATLAB mathematical toolbox documentation
More Answers (2)
Svetlana Pease
on 12 Dec 2017
Edited: Svetlana Pease
on 12 Dec 2017
Hi David,
You can define a multi-cellular geometry by importing it from an STL file only if the cells are not connected. The last example here shows a multi-cellular geometry imported from STL. In all other cases importGeometry creates one cell.
Regards,
Svetlana Pease
MathWorks Documentation Group
3 Comments
Giulia Ulpiani
on 23 Jul 2019
Hey David, I have the same issue in my current project. Did you solve it somehow?
Thank you,
Giulia
David Naviaux
on 26 Dec 2019
2 Comments
Erebros
on 10 Mar 2021
Good morning,
I am having the same issue than you have. I reduced a 3D process to a 2D model due to the symmetry in the z-axis (cylindrical coordinates). Unfortunately I have multiple areas which are directly in contact with each other. If I define the first geometry everything works just fine. But by adding the other geometries the program adds the cross-sectional areas of the two geometry in such a way, that I end up with only one structure containing the combined surface of both geometries. This is unfortunately not acceptable due to the differences in material properties.
Is there any chance that you resolved the problem in another way?
If I find a solution/workaround to this problem I will let you know.
Best regards,
Erebros
See Also
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!