A method is presented for obtaining the attenuation of a shock wave in a shock tube due to the unsteady boundary layer along the shock-tube walls. It is assumed that the boundary layer is thin relative to the tube diameter and induces one-dimensional longitudinal pressure waves whose strength is proportional to the vertical velocity at the edge of the boundary layer. The contributions of the various regions in a shock tube to shock attenuation are indicated. The method is shown to be in reasonably good agreement with existing experimental data
The boundary layer which is formed as a shock wave propagates down a shock tube causes both shock at...
The principles, theoretical flow equations, calculation techniques, limitations and practical perfor...
A dimensional study and an experimental investigation have been made on the pressure rise across sho...
The linearized attenuation theory of NACA Technical Note 3375 is modified in the following manner: (...
Measurements are presented at Mach numbers from about 1.3 to 1.5 of reflection characteristics and t...
SIGLEAvailable from British Library Document Supply Centre- DSC:7578.615(OUCL-NAG--91/2) / BLDSC - B...
A theoretical prediction is given of the flow through thick perforated walls of low porosity resulti...
Nitrogen driven gas wall boundary layer effect and hydrogen driver gas thermodynamic effect on shock...
The linearized attenuation theory of NACA Technical Note 3375 is modified in the following manner: (...
The results of an experimental investigation of the mean- and fluctuating-flow properties of a compr...
Shock waves propagating in shock tubes or small channels will be constantly attenuated during propag...
An unsteady boundary layer if formed along the ground as a result of nuclear explosions and large HE...
Laminar boundary layer effects on reaction rate constants deduced from shock tube measurement
Experimental measurements of the attenuation of plane shock waves moving over rough walls have been ...
Experimental measurements of the attenuation of plane shock waves moving over rough walls have been ...
The boundary layer which is formed as a shock wave propagates down a shock tube causes both shock at...
The principles, theoretical flow equations, calculation techniques, limitations and practical perfor...
A dimensional study and an experimental investigation have been made on the pressure rise across sho...
The linearized attenuation theory of NACA Technical Note 3375 is modified in the following manner: (...
Measurements are presented at Mach numbers from about 1.3 to 1.5 of reflection characteristics and t...
SIGLEAvailable from British Library Document Supply Centre- DSC:7578.615(OUCL-NAG--91/2) / BLDSC - B...
A theoretical prediction is given of the flow through thick perforated walls of low porosity resulti...
Nitrogen driven gas wall boundary layer effect and hydrogen driver gas thermodynamic effect on shock...
The linearized attenuation theory of NACA Technical Note 3375 is modified in the following manner: (...
The results of an experimental investigation of the mean- and fluctuating-flow properties of a compr...
Shock waves propagating in shock tubes or small channels will be constantly attenuated during propag...
An unsteady boundary layer if formed along the ground as a result of nuclear explosions and large HE...
Laminar boundary layer effects on reaction rate constants deduced from shock tube measurement
Experimental measurements of the attenuation of plane shock waves moving over rough walls have been ...
Experimental measurements of the attenuation of plane shock waves moving over rough walls have been ...
The boundary layer which is formed as a shock wave propagates down a shock tube causes both shock at...
The principles, theoretical flow equations, calculation techniques, limitations and practical perfor...
A dimensional study and an experimental investigation have been made on the pressure rise across sho...