No, or rather, yes you are wrong, sreid is right. This is the reason I don't like using sine sweeps for testing. In a sine sweep test the vibrations never reach steady state. The response therefore always contains some transient component. In a lightly damped system, these transients take a long time to die away. In a highly damped system they die away much more quickly. If you are sweeping too fast then the peak may well be in the wrong place or wider than you expect and hence your damping estimates will be inaccuarate.
Are you using a current controlled amplifier to drive the shaker (one which provides an output current proportional to the input voltage)? If not, then this could also distort your response curven due to a nasty little phenomenon called "force drop-out".
Usung half power points to estimate damping applies specifically to the FRF, which you are not measuring. Greg's rough and ready impact approach will probably give you a better estimate than your half power approach.
A better method is "sine dwell" which is marginally more sophisticated than the impact approach in that it allows you to estimate the damping of individual modes rather than the structure as a whole. It also doesn't require any more equipment than you already have. It should work well on your structure because the natural frequencies are well separated.
1. Put a sine wave through your shaker as close as you can to the natural frequency.
2. Apply it for long enough so that the structure reaches steady state.
3. Switch it off and measure the decaying reponse.
4. Use log-dec or similar to estimate the slope of the log of the decay.
Not so many years ago, we used to estimate the slope by offering a protractor up to the 'scope screen. Fortunately things are a little more sophisticated now.
M
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Dr Michael F Platten
