koenigsegg
Mechanical
Hello all,
Sorry for the long post but it is worth it.
I am currently analyzing the response of a beam shaped solid (clamped at one end) to a base (displacement) random excitation. I am interested in knowing the 1-sigma displacements (RMS values) of some nodes in the same direction of the applied excitation.
Now, I know that there are 2 ways of getting this values:
1 - list/plot the displacement nodal solution;
2 - plot the response PSD curve of those particular nodes, integrate over the frequency range and take the square root of the result.
Either way, the results should be same.
What I have found is, if the input PSD curve is a "white noise" (constant values over the frequency range), this holds true.
HOWEVER, if the input PSD values vary with frequency, the values do not match! And I am not talking of disparities in decimal places; depending on the shape of the input PSD curve, I am talking of differences in one order of magnitude and more...
WORSE...: if I look at the response over the clamped nodes, where it should be equal to the input, I found that the input RMS and the response RMS values do not match either!
Now the question is: what is happening? Which results can I trust? Does any one have any idea?
Thanks in advance for your feedback.
Koenigsegg
PS1: I have also verified this behavior with a simple SDOF spring-mass model.
PS2: All of Ansys Verification Manuals test cases are performed with white noise PSD's as inputs...
Sorry for the long post but it is worth it.
I am currently analyzing the response of a beam shaped solid (clamped at one end) to a base (displacement) random excitation. I am interested in knowing the 1-sigma displacements (RMS values) of some nodes in the same direction of the applied excitation.
Now, I know that there are 2 ways of getting this values:
1 - list/plot the displacement nodal solution;
2 - plot the response PSD curve of those particular nodes, integrate over the frequency range and take the square root of the result.
Either way, the results should be same.
What I have found is, if the input PSD curve is a "white noise" (constant values over the frequency range), this holds true.
HOWEVER, if the input PSD values vary with frequency, the values do not match! And I am not talking of disparities in decimal places; depending on the shape of the input PSD curve, I am talking of differences in one order of magnitude and more...
WORSE...: if I look at the response over the clamped nodes, where it should be equal to the input, I found that the input RMS and the response RMS values do not match either!
Now the question is: what is happening? Which results can I trust? Does any one have any idea?
Thanks in advance for your feedback.
Koenigsegg
PS1: I have also verified this behavior with a simple SDOF spring-mass model.
PS2: All of Ansys Verification Manuals test cases are performed with white noise PSD's as inputs...