Add to ORKGA fluid mechanical model of the acoustic behavior of small orifices is presented which predicts orifice resistance and reactance as a function of incident sound pressure level, frequency, and orifice geometry. Agreement between predicted and measured values is excellent. The model shows the following: (1) The acoustic flow in immediate neighborhood of the orifice can be modeled as a locally spherical flow. Within this near field, the flow is, to a first approximation, unsteady and incompressible. (2) At very low sound pressure levels, the orifice viscous resistance is directly related to the effect of boundary-layer displacement along the walls containing the orifice, and the orifice reactance is directly related to the inertia of the oscil...
High sound pressure levels cause impedance changes in orifices and perforated plates due to vortex s...
Thesis (Ph.D.) Massachusetts Institute of Technology. Dept. of Physics, 1951.Vita.Bibliography: leav...
This paper deals with the numerical prediction of the aeroacoustic behavior of orifices under grazin...
AbstractThe response of orifices to incident acoustic waves, which is important for many engineering...
The response of orifices to incident acoustic waves, which is important for many engineering applica...
A semi-empirical fluid mechanical model of the acoustic behavior of Helmholtz resonators is presente...
An analysis of the oscillatory fluid flow in the vicinity of a circular orifice with a steady grazin...
Single degree-of-freedom conventional acoustic liners are widely installed in jet engines to reduce ...
A nonlinear resistance model is used in the one-dimensional equations of motion with an arbitrary ex...
A nonreactive orifice in an infinite baffle is analyzed. The pressure difference delta across the or...
The reflection factor at a tube which ends at a plate over which a flow is forming was determined as...
With this study, we provide a global link between linear and non-linear acoustic resistance of a per...
We use matched asymptotics to derive analytical formulae for the acoustic impedance of a subwaveleng...
This thesis is motivated by the need for noise control in aircraft engine with orifices and perforat...
With this study, we provide a global link between linear and non-linear acoustic resistance of a per...
High sound pressure levels cause impedance changes in orifices and perforated plates due to vortex s...
Thesis (Ph.D.) Massachusetts Institute of Technology. Dept. of Physics, 1951.Vita.Bibliography: leav...
This paper deals with the numerical prediction of the aeroacoustic behavior of orifices under grazin...
AbstractThe response of orifices to incident acoustic waves, which is important for many engineering...
The response of orifices to incident acoustic waves, which is important for many engineering applica...
A semi-empirical fluid mechanical model of the acoustic behavior of Helmholtz resonators is presente...
An analysis of the oscillatory fluid flow in the vicinity of a circular orifice with a steady grazin...
Single degree-of-freedom conventional acoustic liners are widely installed in jet engines to reduce ...
A nonlinear resistance model is used in the one-dimensional equations of motion with an arbitrary ex...
A nonreactive orifice in an infinite baffle is analyzed. The pressure difference delta across the or...
The reflection factor at a tube which ends at a plate over which a flow is forming was determined as...
With this study, we provide a global link between linear and non-linear acoustic resistance of a per...
We use matched asymptotics to derive analytical formulae for the acoustic impedance of a subwaveleng...
This thesis is motivated by the need for noise control in aircraft engine with orifices and perforat...
With this study, we provide a global link between linear and non-linear acoustic resistance of a per...
High sound pressure levels cause impedance changes in orifices and perforated plates due to vortex s...
Thesis (Ph.D.) Massachusetts Institute of Technology. Dept. of Physics, 1951.Vita.Bibliography: leav...
This paper deals with the numerical prediction of the aeroacoustic behavior of orifices under grazin...