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New to COMSOL. Help with structural analysis.
Posted Jan 4, 2013, 10:04 p.m. EST 4 Replies
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Hey guys, I have a 2'' hollow tube that is fixed at one end and has a point load at the other end. (think cantilever)
What I need is this:
I need the radius of curvature to be 3'', so I need to know what force to apply to the end of the tube. How would I go about doing this? Please note that currently I am using a 2'' piece of tube, but the length may vary. Not sure if it matters or not.
Any help is appreciated thanks.
What I need is this:
I need the radius of curvature to be 3'', so I need to know what force to apply to the end of the tube. How would I go about doing this? Please note that currently I am using a 2'' piece of tube, but the length may vary. Not sure if it matters or not.
Any help is appreciated thanks.
4 Replies Last Post Jan 8, 2013, 12:59 a.m. EST
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Posted:
1 decade ago
Hi
If you have a tube, it's not only the diameter but also wall thicknes that should be considered, in addition to the length and the aterial parameters.
If you apply a "point" load you will get singularties, apply rather a Boundry load (surface for 3D, line for 2D but a tube is difficult to represent in 2D ;) or a Point in 1D.
Then if you want a radius of curvature you should rather apply a moment at the end and not a force, a force does not really give a regular radius of curvature.
Finally you need to define the "radius of curvature" there are some interesting threads on the FOURM try a search, somewhere one of the COMSOL employees have give a model to extract the radius of curvature for small and (?) lage deformations.
Once yo have the Radius you can define the moment (or force) as a global variable driven by the expression
(Calculated_Radius - Desire_Rradius)^2
--
Good luck
Ivar
If you have a tube, it's not only the diameter but also wall thicknes that should be considered, in addition to the length and the aterial parameters.
If you apply a "point" load you will get singularties, apply rather a Boundry load (surface for 3D, line for 2D but a tube is difficult to represent in 2D ;) or a Point in 1D.
Then if you want a radius of curvature you should rather apply a moment at the end and not a force, a force does not really give a regular radius of curvature.
Finally you need to define the "radius of curvature" there are some interesting threads on the FOURM try a search, somewhere one of the COMSOL employees have give a model to extract the radius of curvature for small and (?) lage deformations.
Once yo have the Radius you can define the moment (or force) as a global variable driven by the expression
(Calculated_Radius - Desire_Rradius)^2
--
Good luck
Ivar
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Posted:
1 decade ago
Hi David,
I suggest you apply a moment not a point force as Ivar suggested. As an initial estimate based on beam theory the radius of curvature due to an applied moment = E*I/M.
Nagi Elabbasi
Veryst Engineering
I suggest you apply a moment not a point force as Ivar suggested. As an initial estimate based on beam theory the radius of curvature due to an applied moment = E*I/M.
Nagi Elabbasi
Veryst Engineering
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Posted:
1 decade ago
I think I managed it, but I do have a question.
In my pipe, after running the analysis, and graphing the Von Mises stresses on the entire pipe, is there anyway to cut half the pipe off so I can see the stresses on the inside of the pipe?
Thanks.
In my pipe, after running the analysis, and graphing the Von Mises stresses on the entire pipe, is there anyway to cut half the pipe off so I can see the stresses on the inside of the pipe?
Thanks.
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Posted:
1 decade ago
Hi
Check the Results - Data set - Right-click - cut plane nodes and related help/doc
--
Good luck
Ivar
Check the Results - Data set - Right-click - cut plane nodes and related help/doc
--
Good luck
Ivar