Vibrational Analysis of a Splash Cymbal by Experimental Measurements and Parametric CAD-FEM Simulations

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Бібліографічні деталі
Опубліковано в::	Vibration vol. 7, no. 1 (2024), p. 146
Автор:	Brezas, Spyros
Інші автори:	Kaselouris, Evaggelos, Orphanos, Yannis, Tatarakis, Michael, Makis Bakarezos, Papadogiannis, Nektarios A, Dimitriou, Vasilis
Опубліковано:	MDPI AG
Предмети:	United States > US France Musical instruments Finite element method Simulation Mathematical analysis Investigations Interferometry Speckle patterns Modal damping Numerical models Approximation Mathematical models Computer aided design > CAD Modal analysis Percussion Impulse response Curvature Damping ratio Accelerometers Vibration Sound Electronic speckle pattern interferometry
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022			\|a 2571-631X
024	7		\|a 10.3390/vibration7010008 \|2 doi
035			\|a 3003797217
045	2		\|b d20240101 \|b d20241231
100	1		\|a Brezas, Spyros \|u Physical Acoustics and Optoacoustics Laboratory, Hellenic Mediterranean University, Perivolia, 71433 Rethymnon, Greece; <email>vagfem@hmu.gr</email> (E.K.); <email>yorphanos@hmu.gr</email> (Y.O.); <email>bakarezos@hmu.gr</email> (M.B.); <email>npapadogiannis@hmu.gr</email> (N.A.P.); <email>dimvasi@hmu.gr</email> (V.D.)
245	1		\|a Vibrational Analysis of a Splash Cymbal by Experimental Measurements and Parametric CAD-FEM Simulations
260			\|b MDPI AG \|c 2024
513			\|a Journal Article
520	3		\|a The present study encompasses a thorough analysis of the vibrations in a splash musical cymbal. The analysis is performed using a hybrid methodology that combines experimental measurements with parametric computer-aided design and finite element method simulations. Experimental measurements, including electronic speckle pattern interferometry, and impulse response measurements are conducted. The interferometric measurements are used as a reference for the evaluation of finite element method modal analysis results. The modal damping ratio is calculated via the impulse response measurements and is adopted by the corresponding simulations. Two different approximations are employed for the computer-aided design and finite element method models: one using three-point arcs and the other using lines to describe the non-smooth curvature introduced during manufacturing finishing procedures. The numerical models employing the latter approximation exhibit better agreement with experimental results. The numerical results demonstrate that the cymbal geometrical characteristics, such as the non-smooth curvature and thickness, greatly affect the vibrational behavior of the percussion instrument. These results are of valuable importance for the development of vibroacoustic numerical models that will accurately simulate the sound synthesis of cymbals.
651		4	\|a United States--US
651		4	\|a France
653			\|a Musical instruments
653			\|a Finite element method
653			\|a Simulation
653			\|a Mathematical analysis
653			\|a Investigations
653			\|a Interferometry
653			\|a Speckle patterns
653			\|a Modal damping
653			\|a Numerical models
653			\|a Approximation
653			\|a Mathematical models
653			\|a Computer aided design--CAD
653			\|a Modal analysis
653			\|a Percussion
653			\|a Impulse response
653			\|a Curvature
653			\|a Damping ratio
653			\|a Accelerometers
653			\|a Vibration
653			\|a Sound
653			\|a Electronic speckle pattern interferometry
700	1		\|a Kaselouris, Evaggelos \|u Physical Acoustics and Optoacoustics Laboratory, Hellenic Mediterranean University, Perivolia, 71433 Rethymnon, Greece; <email>vagfem@hmu.gr</email> (E.K.); <email>yorphanos@hmu.gr</email> (Y.O.); <email>bakarezos@hmu.gr</email> (M.B.); <email>npapadogiannis@hmu.gr</email> (N.A.P.); <email>dimvasi@hmu.gr</email> (V.D.); Institute of Plasma Physics & Lasers, Hellenic Mediterranean University Centre of Research & Innovation, Tria Monastiria, 74100 Rethymnon, Greece; <email>mictat@hmu.gr</email>
700	1		\|a Orphanos, Yannis \|u Physical Acoustics and Optoacoustics Laboratory, Hellenic Mediterranean University, Perivolia, 71433 Rethymnon, Greece; <email>vagfem@hmu.gr</email> (E.K.); <email>yorphanos@hmu.gr</email> (Y.O.); <email>bakarezos@hmu.gr</email> (M.B.); <email>npapadogiannis@hmu.gr</email> (N.A.P.); <email>dimvasi@hmu.gr</email> (V.D.); Institute of Plasma Physics & Lasers, Hellenic Mediterranean University Centre of Research & Innovation, Tria Monastiria, 74100 Rethymnon, Greece; <email>mictat@hmu.gr</email>
700	1		\|a Tatarakis, Michael \|u Institute of Plasma Physics & Lasers, Hellenic Mediterranean University Centre of Research & Innovation, Tria Monastiria, 74100 Rethymnon, Greece; <email>mictat@hmu.gr</email>
700	1		\|a Makis Bakarezos \|u Physical Acoustics and Optoacoustics Laboratory, Hellenic Mediterranean University, Perivolia, 71433 Rethymnon, Greece; <email>vagfem@hmu.gr</email> (E.K.); <email>yorphanos@hmu.gr</email> (Y.O.); <email>bakarezos@hmu.gr</email> (M.B.); <email>npapadogiannis@hmu.gr</email> (N.A.P.); <email>dimvasi@hmu.gr</email> (V.D.); Institute of Plasma Physics & Lasers, Hellenic Mediterranean University Centre of Research & Innovation, Tria Monastiria, 74100 Rethymnon, Greece; <email>mictat@hmu.gr</email>
700	1		\|a Papadogiannis, Nektarios A \|u Physical Acoustics and Optoacoustics Laboratory, Hellenic Mediterranean University, Perivolia, 71433 Rethymnon, Greece; <email>vagfem@hmu.gr</email> (E.K.); <email>yorphanos@hmu.gr</email> (Y.O.); <email>bakarezos@hmu.gr</email> (M.B.); <email>npapadogiannis@hmu.gr</email> (N.A.P.); <email>dimvasi@hmu.gr</email> (V.D.); Institute of Plasma Physics & Lasers, Hellenic Mediterranean University Centre of Research & Innovation, Tria Monastiria, 74100 Rethymnon, Greece; <email>mictat@hmu.gr</email>
700	1		\|a Dimitriou, Vasilis \|u Physical Acoustics and Optoacoustics Laboratory, Hellenic Mediterranean University, Perivolia, 71433 Rethymnon, Greece; <email>vagfem@hmu.gr</email> (E.K.); <email>yorphanos@hmu.gr</email> (Y.O.); <email>bakarezos@hmu.gr</email> (M.B.); <email>npapadogiannis@hmu.gr</email> (N.A.P.); <email>dimvasi@hmu.gr</email> (V.D.); Institute of Plasma Physics & Lasers, Hellenic Mediterranean University Centre of Research & Innovation, Tria Monastiria, 74100 Rethymnon, Greece; <email>mictat@hmu.gr</email>
773	0		\|t Vibration \|g vol. 7, no. 1 (2024), p. 146
786	0		\|d ProQuest \|t Engineering Database
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