INCIDENT SHOCK-WAVE CHARACTERISTICS IN AIR, ARGON, CARBON DIOXIDE, AND HELIUM IN A SHOCK TUBE WITH UNHEATED HELIUM DRIVER

摘要

Incident shock-wave velocities were measured in the Langley 6-inch expansion tube, operated as a shock tube, with air, argon, carbon dioxide, and helium as test gases. Unheated helium was used as the driver gas and most data were obtained at pressures of approximately 34 and 54 MN/m². A range of pressure ratio across the diaphragm was obtained by varying the quiescent test-gas pressure, for a given driver pressure, from 0.0276 to 34.5 kN/m². Single- and double-diaphragm modes of operation were employed and diaphragms of various materials tested. Shock velocity was determined from micro¬wave interferometer measurements, response of pressure transducers positioned along the driven section (time-of-arrival gages), and to a lesser extent, measured tube-wall pressure. Velocities obtained from these methods are compared and limitations of the methods discussed. The present results are compared with theory and the effects of dia¬phragm mode (single or double diaphragm), diaphragm material, heating of the driver gas upon pressurization of the driver section, diaphragm opening time, interface mixing, and two-dimensional (nonplanar) flow are discussed.