Litcius/Paper detail

A Detailed FEM Study on the Vibro-acoustic Behaviour of Crash and Splash Musical Cymbals

Evaggelos Kaselouris, Chrisoyla Alexandraki, Makis Bakarezos, M. Tatarakis, Nektarios A. Papadogiannis, Vasilis Dimitriou

2022International Journal of Circuits Systems and Signal Processing15 citationsDOIOpen Access PDF

Abstract

Advanced numerical simulations, that include modal and frequency response function finite element analysis, frequency domain and time domain finite element method – boundary element method analysis, are performed to study the vibro-acoustic behaviour of crash and splash musical cymbals. The results of the modal analysis agree well with experimental measurements found in literature. The frequency domain and time domain coupled finite – boundary element method simulations, despite their high computational resources and time demands, are used for the crucial comparison of the velocity spectrograms on the cymbal to the radiated sound pressure spectrograms in the air. The computational analysis results show that the splash cymbal is characterized by a faster decay and a higher frequency content compared to the crash cymbal. The advanced multiphysics vibro-acoustic simulations that correlate the displacements and velocities of the vibrated structure with the radiated sound pressure results demonstrate the future capability to synthesize the sounds of cymbal music instruments.

Topics & Concepts

AcousticsFinite element methodSpectrogramFrequency domainSound pressureModal analysisTime domainBoundary element methodVibrationComputer scienceEngineeringStructural engineeringPhysicsSpeech recognitionComputer visionMusic Technology and Sound StudiesAcoustic Wave Phenomena ResearchMusic and Audio Processing