Nagi Elabbasi
Facebook Reality Labs
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Posted:
1 decade ago
08.11.2011, 23:28 GMT-5
You can integrate the stress over the surface of the body or sum the reaction forces (search for reacf in the COMSOL documentation).
Nagi Elabbasi
Veryst Engineering
You can integrate the stress over the surface of the body or sum the reaction forces (search for reacf in the COMSOL documentation).
Nagi Elabbasi
Veryst Engineering
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Posted:
1 decade ago
09.11.2011, 08:17 GMT-5
Thank you for your answer :)
I have just a last question: in this case, why the integration of the total stress along a coordynate (say, z) and the integration of the viscous stress along the same coordinate, give different results?
Thank you for your answer :)
I have just a last question: in this case, why the integration of the total stress along a coordynate (say, z) and the integration of the viscous stress along the same coordinate, give different results?
Nagi Elabbasi
Facebook Reality Labs
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Posted:
1 decade ago
09.11.2011, 09:12 GMT-5
The viscous stress is only part of the total stress. It does not include the pressure term.
The viscous stress is only part of the total stress. It does not include the pressure term.
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Posted:
1 decade ago
09.11.2011, 10:26 GMT-5
But, if i'm not wrong, the integral of the total force due to a pressure on a body, along a certain axis, should be 0.
It can be different from 0 only if the pressure force is considered without his sign, is the total stress calculated in this way?
Thanks in advance!
But, if i'm not wrong, the integral of the total force due to a pressure on a body, along a certain axis, should be 0.
It can be different from 0 only if the pressure force is considered without his sign, is the total stress calculated in this way?
Thanks in advance!
Nagi Elabbasi
Facebook Reality Labs
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Posted:
1 decade ago
09.11.2011, 10:34 GMT-5
The integral of the pressure term is not zero because the pressure field is not uniform.
The integral of the pressure term is not zero because the pressure field is not uniform.
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Posted:
1 decade ago
09.11.2011, 10:42 GMT-5
So you're talking about the effects of form drag? I thought it was neglectable because the Reynold's number in every point of the fluid is very low (the maximum is of about 18), I guess I have to study the problem better :)
Thanks for your help!
So you're talking about the effects of form drag? I thought it was neglectable because the Reynold's number in every point of the fluid is very low (the maximum is of about 18), I guess I have to study the problem better :)
Thanks for your help!
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Posted:
1 decade ago
07.12.2012, 16:15 GMT-5
Hi,
I just ran into this chain while looking for rigid body displacement of an object. How and where did you define the velocity of the object? and are you just using the laminar flow module or are you also using the fsi module? I have seen other chains where there is an angular velocity assigned to a rigid connector. However, all I need is a translational velocity but I do not know how to implement it since there seems to be no analogue for the rigid connector for translational displacements. I also tried to make the geometry time dependent but that doesn't work either. There is also a 'prescribed velocity' feature for solid mechanics but not sure if this is how you assigned the velocity to your object.
If you can shed some light to this problem, which you have resolved, I would greatly appreciate it,
Thanks very much,
Lina
Hi,
I just ran into this chain while looking for rigid body displacement of an object. How and where did you define the velocity of the object? and are you just using the laminar flow module or are you also using the fsi module? I have seen other chains where there is an angular velocity assigned to a rigid connector. However, all I need is a translational velocity but I do not know how to implement it since there seems to be no analogue for the rigid connector for translational displacements. I also tried to make the geometry time dependent but that doesn't work either. There is also a 'prescribed velocity' feature for solid mechanics but not sure if this is how you assigned the velocity to your object.
If you can shed some light to this problem, which you have resolved, I would greatly appreciate it,
Thanks very much,
Lina