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Creating a circle with more boundary regions
Posted 9 nov 2016, 04:50 GMT-5 Modeling Tools & Definitions, Parameters, Variables, & Functions 5 Replies
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When you use the circle function in 2D modelling you end up with 4 regions based on the points that are the basis of the circle. These points are located at 0, 90, 180 and 270 degree. From this you get 4 "chooseable" boundaries later on that you put your parameters on, for example emissivity. Is there a way to make a circle that has a lot more points of reference and hence more selectable boundaries? For example I want to create a circle that has 36 reference points ( one point at every 10 degrees ) and subsequently I will end up with 36 choosable boundary regions to set my parameters.
Another question is if I already have a model that is defined as a 4 point circle or that has 4 boundary region parts, is it possible to split these regions into smaller pieces?
Thank you,
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Alternatively, if you don't want the pie wedges, you can add a Point object at the perimeter of the circle. Then use a Rotate node with that point as the input object to add more points along the perimeter of the circle at rotational distances of 10 degrees.
Best regards,
Magnus Ringh, COMSOL
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I followed your approach, but the boundary is still a single boundary, not several independent boundaries that can be selected for applying different conditions? Could you please give me a further help? Thank you so much.
Hi,
Alternatively, if you don't want the pie wedges, you can add a Point object at the perimeter of the circle. Then use a Rotate node with that point as the input object to add more points along the perimeter of the circle at rotational distances of 10 degrees.
Best regards,
Magnus Ringh, COMSOL
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Just so that there are no doubts about the abilty to create extra boundary regions. A circle object in COMSOL Multiphysics is already divided into four boundary segments starting and ending at 0, 90, 180, and 270 degrees (for an unrotated circle). You can add a point object at the circle perimeter to create another boundary split at an angle of 30 degrees, for example, using the point coordinates
x: cos(30[deg])
y: sin(30[deg])
Then solving a simple equation on the circle with the boundary number as the boundary condition, you get a solution as in the attached image, with the value 1 on boundary 1, 2 on boundary 2, and so on, for the 5 boundary segments that the circle perimeter consists of.
Best regards,
Magnus Ringh, COMSOL
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