Abstract
Flue instruments such as the recorder flute and the transverse flute have different mouth geometries and acoustical response. The effect of the mouth geometry is studied by considering the aeroacoustical response of a simple whistle. The labium of a transverse flute has a large edge angle (60°) compared to that of a recorder flute (15°). Furthermore, the ratio W/h of the mouth width W to the jet thickness h can be varied in the transverse flute (lips of the musician) while it is fixed to a value W/h≈4 in a recorder flute. A systematic experimental study of the steady oscillation behavior has been carried out. Results of acoustical pressure measurements and flow visualization are presented. The sharp edge of the recorder provides a sound source which is rich in harmonics at the cost of stability. The larger angle of the labium of the flute seems to be motivated by a better stability of the oscillations for thick jets but could also be motivated by a reduction of broadband turbulence noise. We propose two simplified sound source models which could be used for sound synthesis: a jet-drive model for W/h>2 and a discrete-vortex model for W/h
Original language | English |
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Pages (from-to) | 1724-1735 |
Number of pages | 12 |
Journal | Journal of the Acoustical Society of America |
Volume | 113 |
Issue number | 3 |
DOIs | |
Publication status | Published - 1 Mar 2003 |
Keywords
- acoustics
- airflow
- article
- geometry
- devices
- mathematical model
- mouth
- music
- priority journal