The resonant frequency of the SRB is not from the plate steel casing, it is from acoustic effects in the cavity at the SRB's core. The SRB's case must presumably have a different resonant frequency in order not to rip itself apart on every Shuttle flight.
From what I understand of damping panels used for domestic acoustics (ie music) foam on the upper stage tanks will do exactly nothing to vibrations within several octaves of 12Hz.cheers, Martin
Because of the difference in the fully fueled mass of the SRB (~590,000 kg) verses the unfueled mass of the Ares-1X second stage mass simulator, which is around 190,000 kg, plus the internal structural bracing found in the Ares-1X second stage that is not found in the Shuttle SRBs. These structures are nothing more or less than spring/damper systems tied to a supporting structure with a certian stiffness tied to a vibrational forcing generator called a rocket. So once you know the stage's strucure stiffness, mass, bending modes and force function, the structural resonant frequencies fall out naturally for each element in the system.
NASA and contractor engineers have developed multiple options for "de-tuning" the Ares I rocket to prevent any problematic thrust oscillations from originating in its solid-rocket main stage to sync up with the natural resonance of the rest of the vehicle. http://wiki.nasa.gov/cm/blog/Constellation/posts/post_1261434125038.html
It would mean "if trade studies support it" IMEO.
Can someone explain how a full ring of C-springs allows axial compliance without making the stack more susceptible to bending?
Quote from: rdale on 12/22/2009 12:48 amNASA and contractor engineers have developed multiple options for "de-tuning" the Ares I rocket to prevent any problematic thrust oscillations from originating in its solid-rocket main stage to sync up with the natural resonance of the rest of the vehicle. http://wiki.nasa.gov/cm/blog/Constellation/posts/post_1261434125038.htmlFascinating."The team will 'scar,' or prepare, the upper stage design to accommodate the addition of this [C-Spring isolator and LOX damper] mitigation hardware at a later time, if desirable."What is the meaning of, "if desirable" in that sentence?
C-Spring Isolators:http://blogs.nasa.gov/cm/blog/Constellation/posts/post_1244149653134.htmlIs NASA going to use both (dual) isolators, or just the top (of the upper stage) isolators? It wasn't really clear, in the article.I hope that it is only at the top of the 2nd stage, the bottom of the 2nd stage, looks like an obvious bending point!
So far, thrust oscillation hasn't shown up when tested on the Shuttle, or Ares-1X. So, IMO, "if desirable" means, if it shows up.
Quote from: kyle_baron on 12/23/2009 03:16 pmSo far, thrust oscillation hasn't shown up when tested on the Shuttle, or Ares-1X. So, IMO, "if desirable" means, if it shows up.There was TO in both the Shuttle and the Ares 1-X. For the Ares 1-X test, it is claimed that the TO peaked at a significantly lower value than predicted. "Peak pressure" was 1/3 to 1/2 predicted values.
Quote from: khallow on 12/23/2009 05:49 pmQuote from: kyle_baron on 12/23/2009 03:16 pmSo far, thrust oscillation hasn't shown up when tested on the Shuttle, or Ares-1X. So, IMO, "if desirable" means, if it shows up.There was TO in both the Shuttle and the Ares 1-X. For the Ares 1-X test, it is claimed that the TO peaked at a significantly lower value than predicted. "Peak pressure" was 1/3 to 1/2 predicted values.OK, 1/3 of predicted.But why don't they list the absolute size of the oscillation?cheers, Martin
Quote from: MP99 on 12/23/2009 09:07 pmQuote from: khallow on 12/23/2009 05:49 pmQuote from: kyle_baron on 12/23/2009 03:16 pmSo far, thrust oscillation hasn't shown up when tested on the Shuttle, or Ares-1X. So, IMO, "if desirable" means, if it shows up.There was TO in both the Shuttle and the Ares 1-X. For the Ares 1-X test, it is claimed that the TO peaked at a significantly lower value than predicted. "Peak pressure" was 1/3 to 1/2 predicted values.OK, 1/3 of predicted.But why don't they list the absolute size of the oscillation?cheers, MartinBecause that would be SBU, which is why the axes on the data plots are not marked either.
The lurking monster in this issue is a possible closed loop interaction between the TO forcing function and the structural dynamics of the vehicle. Ares-1X upper stage simulator tuned to completely different resonant frequencies because it was basically a stiff steel pipe so there was no interaction. This is how you detune, by designing away from the sensitive frequencies from the beginning. Mitigations they are baselining now are band-aids applied to the vehicle because it is too late to change the structural resonances of Orion. Of course, the worst case scenario would be if vehicle oscillations ever somehow feedback into the booster to amplify the internal acoustics that create the thrust oscillation. This would be a solid rocket version of pogo. We need to prevent this situation from ever happening. It is completely avoidable.
Quote from: sdsds on 12/22/2009 03:07 amQuote from: rdale on 12/22/2009 12:48 amNASA and contractor engineers have developed multiple options for "de-tuning" the Ares I rocket to prevent any problematic thrust oscillations from originating in its solid-rocket main stage to sync up with the natural resonance of the rest of the vehicle. http://wiki.nasa.gov/cm/blog/Constellation/posts/post_1261434125038.htmlFascinating."The team will 'scar,' or prepare, the upper stage design to accommodate the addition of this [C-Spring isolator and LOX damper] mitigation hardware at a later time, if desirable."What is the meaning of, "if desirable" in that sentence? So far, thrust oscillation hasn't shown up when tested on the Shuttle, or Ares-1X. So, IMO, "if desirable" means, if it shows up.
Why are you going back to the Ares I will "shake its passengers to death" arguments despite all the evidence pointing that this would not be the case.
That's exactly my point. I realize that T.O. will always be part of a SRM. However, the "shake its passengers to death" requires additional inputs (similar frequencies) from the rest of the rocket. IMO, the similar frequencies will not happen, because the stages and interfaces, have different materials, all vibrating at different frequencies.
