Simulation of interior ballistics flows in a shock tube
Abstract
The flow in front of and behind a projectile was investigated in a interior ballistics shock tube simulator. Flow patterns and heat flow were examined for flows with and without gas leakage. The boundary layers behind the piston can clearly be shown by differential interferograms. The dependence of the heat flow into the measuring tube wall on the base form is smaller than the signal perturbations. Flow patterns show no appreciable effect of gas leakage on the flow behind the piston; strong flow effects arise in front of the piston. The same effects are shown by heat flow measurements. In case of gas leakage heat flows into the tube wall before the piston reaches the wall. In the slit between piston and wall a maximum heat flow is found. High temperature gradients, due to the fact that hot gases come closer to the tube wall than in the boundary layer flow behind the piston, lead to high thermal loading of the wall materials which can cause cracks.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- July 1983
- Bibcode:
- 1983STIN...8527183S
- Keywords:
-
- Flow Distribution;
- Flow Visualization;
- Interior Ballistics;
- Shock Tubes;
- Boundary Layer Flow;
- Gas Flow;
- Gun Launchers;
- Heat Transmission;
- Interferometry;
- Pistons;
- Shock Simulators;
- Fluid Mechanics and Heat Transfer