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Mechanische trillingen. LES 9 – MODALE ANALYSE. Patrick Guillaume E-mail: patrick.guillaume@vub.ac.be Tel.: 02/6293566. Random Excitation. Random sequence with Gaussian distribution Random amplitudes and phases Averaging is needed Converge to flat amplitude spectrum
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Mechanische trillingen LES 9 – MODALE ANALYSE Patrick Guillaume E-mail: patrick.guillaume@vub.ac.be Tel.: 02/6293566 MECHANISCHE TRILLINGEN, LES 9, 2005
Random Excitation • Random sequence with Gaussian distribution • Random amplitudes and phases • Averaging is needed • Converge to flat amplitude spectrum • Remark: Force is not flat in general due to interaction with the structure • Signal processing errors (leakage errors) • Effect of nonlinearities is reduced by averaging MECHANISCHE TRILLINGEN, LES 9, 2005
Random Noise MECHANISCHE TRILLINGEN, LES 9, 2005
Uniform Window MECHANISCHE TRILLINGEN, LES 9, 2005
Hanning Window MECHANISCHE TRILLINGEN, LES 9, 2005
Burst Random MECHANISCHE TRILLINGEN, LES 9, 2005
Burst Random with Uniform Window MECHANISCHE TRILLINGEN, LES 9, 2005
Exponential Window MECHANISCHE TRILLINGEN, LES 9, 2005
Periodic Random / Pseudo-Random Excitation • Periodic random • No leakage errors (periodic signal) in steady-state conditions • Averaging is required • Pseudo random • Constant amplitudes and random phases • No leakage errors (periodic signal) in steady-state conditions • Averaging is not required MECHANISCHE TRILLINGEN, LES 9, 2005
Impact Excitation • Force transducer and tip • Advantages • Easy to use • No interaction with structure • Force is flat in useful frequency range • Relatively inexpensive MECHANISCHE TRILLINGEN, LES 9, 2005
Impact Excitation • Disadvantages • Large crest factor • Nonlinearities • Limited control of amplitude spectrum MECHANISCHE TRILLINGEN, LES 9, 2005
Force Window • Force window (or transient window) • Remove noise • Effect of “Double Hits” MECHANISCHE TRILLINGEN, LES 9, 2005
Response Window • Lightly damped structure • Leakage errors • Heavily damped structure • Remove noise MECHANISCHE TRILLINGEN, LES 9, 2005
Overzicht EMA EMA = Experimentele Modale Analyse • Stap 1: Experimentele opstelling • Stap 2: Opmeten van de FRF’s • Stap 3: Bepalen van de modale parameters door bvb. curve fitting • Stap 4: Validatie van de resultaten • Stap 5: Toepassingen MECHANISCHE TRILLINGEN, LES 9, 2005
Step 1: Setting Up the Modal Test • Choosing DOFs • Suspension • Choice of excitation • Position/connection of force transducer • Mounting the response transducers • Transducer conditioning and calibration • Setting up the analyzer • Range setting • Frequency band • FRF estimator MECHANISCHE TRILLINGEN, LES 9, 2005
Step 2: Making the Measurements • Checking the quality of the measurements • Noise • Nonlinearities? MECHANISCHE TRILLINGEN, LES 9, 2005
Rigid Body Modes MECHANISCHE TRILLINGEN, LES 9, 2005
Step 3: Modal Parameter Estimation • SDOF • Uncoupled modes • MDOF • Coupled modes MECHANISCHE TRILLINGEN, LES 9, 2005
Curve-Fitters for Modal Analysis – MDOF • Two step approach • Poles are global parameters • Time MDOF (LSCE) • Freq. MDOF (PolyMAX) • Mode shape vectors are local parameters • LSFD MECHANISCHE TRILLINGEN, LES 9, 2005
Stabilization Diagram MECHANISCHE TRILLINGEN, LES 9, 2005
Least Squares Frequency Domain – LSFD MECHANISCHE TRILLINGEN, LES 9, 2005
Residual terms – LR, UR MECHANISCHE TRILLINGEN, LES 9, 2005
Step 4: Checking the Model • Synthesized FRF • Modal Assurance Criteria MAC MECHANISCHE TRILLINGEN, LES 9, 2005
PZL Mielec Skytruck (FLiTE Project) MECHANISCHE TRILLINGEN, LES 9, 2005
Stabilization Diagrams LSCE LSCF (PolyMAX) MECHANISCHE TRILLINGEN, LES 9, 2005
Mode Shapes (3.17 Hz, 1.62 %) MECHANISCHE TRILLINGEN, LES 9, 2005
Mode Shapes (8.39 Hz, 1.93 %) MECHANISCHE TRILLINGEN, LES 9, 2005
Computer Simulations: What if? • Modification simulation • Design optimization • Response simulation • Acoustic noise calculations • Fatigue analysis • … MECHANISCHE TRILLINGEN, LES 9, 2005
Dynamic Modelling Process MECHANISCHE TRILLINGEN, LES 9, 2005
FE Model Updating MECHANISCHE TRILLINGEN, LES 9, 2005
Structural Dynamic Modifications MECHANISCHE TRILLINGEN, LES 9, 2005
Slat Track Optimisation MECHANISCHE TRILLINGEN, LES 9, 2005
Forced Response Simulation MECHANISCHE TRILLINGEN, LES 9, 2005