Three-dimensional shock wave reflection over a corner of two intersecting wedges
Abstract
This paper presents an experimental and numerical investigation of three-dimensional shock wave reflections over a corner of two wedges intersecting perpendicularly in a shock tube. Experiments were conducted in a 100 mm × 180 mm diaphragmless shock tube equipped with double-exposure diffuse holographic interferometry in which the time interval between the first and second exposure was set to be 1 μ s. This arrangement clearly visualized complex configurations of three-dimensional shock wave reflections. A numerical study was also carried out for interpreting these holographic interferometric observations by using the Weighted Average Flux (WAF) method to solve the three-dimensional unsteady compressible Euler equations. It was found that along the line of the intersection of these two wedges, two Mach stems intersected each other resulting in the formation of a Mach stem which leaned forward.
- Publication:
-
Shock Waves
- Pub Date:
- 1997
- DOI:
- 10.1007/s001930050067
- Bibcode:
- 1997ShWav...7..107M
- Keywords:
-
- Key words: 3-D Flow Visualization;
- Holographic Interferometry;
- Numerical Analysis;
- Shock Reflection