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Cricular cross section 2D modelling in cantilever carbon nanotube problem
Posted Apr 4, 2011, 11:59 p.m. EDT Version 4.0, Version 4.1 1 Reply
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Hello,
I've been working with pull-in and pul-out voltages for a carbon nanotube NEM system.
Currently I'm using 2D modelling but I cannot get accurate results due to the thickness definition. I would like to know if there is some way I can model the circular coss section in 2D? I've read about using the 2D axysimmetric coordinate system but all my problem uses cartesian coordinates except for the tube shape so I do not think it's a good idea.
Thank you for your time
Best regards,
David Felipe Carvajal
Universidad de los Andes
Colombia
I've been working with pull-in and pul-out voltages for a carbon nanotube NEM system.
Currently I'm using 2D modelling but I cannot get accurate results due to the thickness definition. I would like to know if there is some way I can model the circular coss section in 2D? I've read about using the 2D axysimmetric coordinate system but all my problem uses cartesian coordinates except for the tube shape so I do not think it's a good idea.
Thank you for your time
Best regards,
David Felipe Carvajal
Universidad de los Andes
Colombia
1 Reply Last Post Apr 5, 2011, 1:34 a.m. EDT
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Posted:
1 decade ago
Hi
Axisymmetry means that the axis is NOT moving radially, which is a specific symmetry condition that might not be what you want. The only other way I see is to set the thickness to something reasonable, but still, you will get "fringe" effects
So you might need to use 3D ...
--
Good luck
Ivar
Axisymmetry means that the axis is NOT moving radially, which is a specific symmetry condition that might not be what you want. The only other way I see is to set the thickness to something reasonable, but still, you will get "fringe" effects
So you might need to use 3D ...
--
Good luck
Ivar