Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
9 years ago
2015年8月28日 GMT-4 02:04
Hi
you are asking for a topology incompatibility, like asking for a triangle with 4 corners, which is not possible!
I see two ways around:
a) either you replace the "Free Triangular" surface/boundary mesh by a "Free quad", and keep your mapped mesh for the three top branches boundaries, and then you sweep the full geometry once
b) you map the three branches top boundary, i.e. with a Distribution sub node for the 3 edges at the pentagon intersection region. Then you sweep these three branches through leaving the pentagon intersection region unmeshed. You then add a Mesh - More Operations - Convert node and select the three surfaces interfacing the pentagon region to the three branches. And finally you add a "Free Tetahedral" mesh for the remaining (pentagonal prism intersection region
Meshing is really "playing" with the geometry :)
--
Good luck
Ivar
Hi
you are asking for a topology incompatibility, like asking for a triangle with 4 corners, which is not possible!
I see two ways around:
a) either you replace the "Free Triangular" surface/boundary mesh by a "Free quad", and keep your mapped mesh for the three top branches boundaries, and then you sweep the full geometry once
b) you map the three branches top boundary, i.e. with a Distribution sub node for the 3 edges at the pentagon intersection region. Then you sweep these three branches through leaving the pentagon intersection region unmeshed. You then add a Mesh - More Operations - Convert node and select the three surfaces interfacing the pentagon region to the three branches. And finally you add a "Free Tetahedral" mesh for the remaining (pentagonal prism intersection region
Meshing is really "playing" with the geometry :)
--
Good luck
Ivar