Tapiwa Mutasa
コメント
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The results should be the same for the time that the two simulations overlap. Increasing the number from 20 to 80 should not change anything for the first 59us. 80 -> 20 + 60. The same operations o...
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That code is different from what I see. I see this instead. bc top volt func 0 /* Apply voltage condition to 'top' electrode and assign driving signal 'func' The voltage is scaled by 0.
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A few things which stand out at first glance is that the website example shows the voltage induced by a pressure load, whereas your model applies a voltage to the transducer terminal through a circ...
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Your models are not the same size. If you change the frequency, the model meshing changes because mesh size is linked to frequency. If your mesh size changes for the same geometry, you have differe...
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I do not have access your designer file in google drive. Can you check the and compare the solver input file generated with designer to your original Analyst script. Click the "Save Solver Input" b...
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It is likely that the acoustic pressure is very small. Compared to what is in your transducer, the range of variation in air is very small so the intensity plot contrast will appear as if it only s...
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You can use the grph mirr y on command to show the other half. You can find more details on this command in the command reference. Area scaling is not a rotation parameter. It is a scaling facto...
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You can use the grph mirr y on command to show the other half. You can find more details on this command in the command reference. Area scaling is not a rotation parameter. It is a scaling facto...
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Hi Leonardo, do you mind sharing your model. The code will be fine.
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This can happen when trying to define an interface between materials and the routine fails to find nodes at the interface. For example when a CAD part is smaller than the mesh and is therefore not ...