Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
27 apr 2012, 09:31 GMT-4
Hi
A frequency domain analysis applies a Force load (that you have forgotten to define) as an amplitude mutliplied by a constant sinus type excitation at a frequency range you define.
The second effect is that you have resonaces around 25 kHz and you are plotting the respons around 100 Hz, you will see nothing so far away from your resonance.
I would propose:
1) perform a eigenfrequency to get the modes
2) start with frequency domain (then later go to frequency - modal) for a frequency range ot +/- 5% around your first resonance
3) define a load, i.e. a body gravity load Fy=g_const*solid.rho
then run
Another point to consider: damping, without any damping the resoance are so sharp that often COMSOL either skip then or fail to pass the resonance
To get back to your frequency-domain modal :
Do not forget: !!!!
you need to right click the body or boundary load and add a "Harmonic perturbation" tick this will add the "tilda" on the icon and your load will now be correctly set up .
--
Good luck
Ivar
Hi
A frequency domain analysis applies a Force load (that you have forgotten to define) as an amplitude mutliplied by a constant sinus type excitation at a frequency range you define.
The second effect is that you have resonaces around 25 kHz and you are plotting the respons around 100 Hz, you will see nothing so far away from your resonance.
I would propose:
1) perform a eigenfrequency to get the modes
2) start with frequency domain (then later go to frequency - modal) for a frequency range ot +/- 5% around your first resonance
3) define a load, i.e. a body gravity load Fy=g_const*solid.rho
then run
Another point to consider: damping, without any damping the resoance are so sharp that often COMSOL either skip then or fail to pass the resonance
To get back to your frequency-domain modal :
Do not forget: !!!!
you need to right click the body or boundary load and add a "Harmonic perturbation" tick this will add the "tilda" on the icon and your load will now be correctly set up .
--
Good luck
Ivar
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Posted:
1 decade ago
1 mag 2012, 16:01 GMT-4
Thank you very much Ivar!
I think I get it now =)
Thank you very much Ivar!
I think I get it now =)
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Posted:
1 decade ago
20 nov 2014, 04:51 GMT-5
Hi
Could you please answer the following
1. Do we have to have booth boundary as well as body loads as contained in your file?
2. I want to apply a load of 250 uN , do I have to convert it into G force?
Thanks for your time
Regards
Anurekha
Hi
A frequency domain analysis applies a Force load (that you have forgotten to define) as an amplitude mutliplied by a constant sinus type excitation at a frequency range you define.
The second effect is that you have resonaces around 25 kHz and you are plotting the respons around 100 Hz, you will see nothing so far away from your resonance.
I would propose:
1) perform a eigenfrequency to get the modes
2) start with frequency domain (then later go to frequency - modal) for a frequency range ot +/- 5% around your first resonance
3) define a load, i.e. a body gravity load Fy=g_const*solid.rho
then run
Another point to consider: damping, without any damping the resoance are so sharp that often COMSOL either skip then or fail to pass the resonance
To get back to your frequency-domain modal :
Do not forget: !!!!
you need to right click the body or boundary load and add a "Harmonic perturbation" tick this will add the "tilda" on the icon and your load will now be correctly set up .
--
Good luck
Ivar
Hi
Could you please answer the following
1. Do we have to have booth boundary as well as body loads as contained in your file?
2. I want to apply a load of 250 uN , do I have to convert it into G force?
Thanks for your time
Regards
Anurekha
[QUOTE]
Hi
A frequency domain analysis applies a Force load (that you have forgotten to define) as an amplitude mutliplied by a constant sinus type excitation at a frequency range you define.
The second effect is that you have resonaces around 25 kHz and you are plotting the respons around 100 Hz, you will see nothing so far away from your resonance.
I would propose:
1) perform a eigenfrequency to get the modes
2) start with frequency domain (then later go to frequency - modal) for a frequency range ot +/- 5% around your first resonance
3) define a load, i.e. a body gravity load Fy=g_const*solid.rho
then run
Another point to consider: damping, without any damping the resoance are so sharp that often COMSOL either skip then or fail to pass the resonance
To get back to your frequency-domain modal :
Do not forget: !!!!
you need to right click the body or boundary load and add a "Harmonic perturbation" tick this will add the "tilda" on the icon and your load will now be correctly set up .
--
Good luck
Ivar
[/QUOTE]