Gudrun Mikota, Josef Mikota,
"Energy related model correlation criteria for modal analysis of fluid-structure interaction systems"
, in Journal of Sound and Vibration, Vol. 483, Nummer 115480, 9-2020, ISSN: 1095-8568
Original Titel:
Energy related model correlation criteria for modal analysis of fluid-structure interaction systems
Sprache des Titels:
Englisch
Original Kurzfassung:
Vibroacoustical problems are sometimes treated by modal analyis, which has been applied to air-filled shells. It is suggested to use the method for various types of liquid-structure interaction systems. Potential applications are water or oil hydraulic pipelines and heavy machinery
actuated by fluid power. Modal testing of such systems should be accompanied by sensor placement strategies, test data assessment, and comparisons between theoretical and experimental mode shapes. In structural dynamics, these issues are covered by model correlation criteria like the classicalmodal assurance criterion (MAC). From the orthogonality relations of undamped vibroacoustical systems, two new criteria are developed. Their respective formulations are related to potential energy (POTMAC) and kinetic energy (KINMAC). Both criteria
assume real values between zero and one. In practical applications of model correlation, it should be understood which values are acceptable. An approximation indicates that the limits for individualmatrix elements can be adopted fromthe MAC. Numerical examples of POTMAC and KINMAC matrices are given for two different hydraulic press models. Analogies between POTMAC, KINMAC, and the rotor modal assurance criterion (RMAC) are pointed out. The new criteria can help to develop modal testing into a useful tool for systems with a vibroacoustical model structure.