manufacturing,mechanical engineering,K.N.Toosi university of technology.Tehran,Iran
Abstract
Shock tube is an equipment in which by creating a pressure difference between driver and driven section via the bursting membrane has the ability to generate shock wave with very short rise time. One of the important parameters in the shock tube is the planar shock wave and the distance of its formation along the driven section. In this study, the shock wave pressure has measured at different sections along the shock tube as well as at different radial distances, using three piezoresistive pressure sensors. Experiments were repeated with three different thickness of diaphragms 0.1, 0.2 and 0.3 mm. Diaphragms were made of Mylar. The results of the experiments were extracted using TRAww software, which is a software for signal processing of the pressure sensors; and the distance of the planar shock wave for different diaphragms was obtained. The results show that by increasing the diaphragm thickness and thus increasing the explosion pressure (pressure of the driver area), the shock wave pressure increased and the planar shock wave propagates further away in the driven section. The uniform duration of the shock wave using a diaphragm with a thickness of 0.1 mm is smaller than the other two diaphragms, and the planar shock wave is not stable until the end of the shock tube. Also, the pressure drop in driven section after rupture of the diaphragm increases with increasing diaphragm thickness.
Richmond, D. R., Yelverton, J. T., Fletcher, E. R., and Phillips, Y. Y. “Bilogic Response to Complex Blast Waves”, Symp. A Q. J. Mod. Foreign Lit., 1985.##
Saad, M. A. “Compressible Fluid Flow”, Prentice-Hall, Inc., 1985.##
Anderson J. D., “Hypersonic and High-Temperature Gas Dynamics“, Second Edition. 2012.##
Wright, J. K. “Shock Tubes (Methuen’s Monographs on Physical Subjects)”, First. Methuen & Co, 1961.##
Zamani, J. “Mechanic of Explosion”, K. N. Toosi University Press, 1392 (in Persian).##
Glass, I. “An Experimental Determination of the Speed of Sound in Gases from the Head of the Rarefaction Wave”, University of Toronto, 1951.##
Resler, E. L., Lin, S. C., and Kantrowitz, A. “The Production of High Temperature Gases in Shock Tubes”, J. Appl. Phys. Vol. 23, No. 12, pp.1390-1399, 1952.##
Emrich, R. J., and Curtis, C. W. “Attenuation in the Shock Tube”, J. Appl. Phys., Vol. 24, No. 3, pp.360-363, 1953.##
Lundquist, G. A. “Shock Wave Formation in a Shock Tube”, J. Appl. Phys., Vol. 23, No. 3, 1952.##
Zeitoun, D. E., and Burtschell, Y. “Navier-stokes Computations in Micro Shock Tubes”, Shock Waves, Vol. 15, No. 3, pp.241-246, 2006.##
Li, P., Duan, Q., Gong, L., Jin, K., Chen, J., and Sun, J. “Effects of Obstacles Inside the Tube on the Shock Wave Propagation and Spontaneous Ignition of High-pressure Hydrogen”, Fuel J., Vol. 236, pp. 1586–1594, 2019.##
Gong, L., Duan, Q., Jiang, L., Jin, K., and Sun, J. “Experimental Study of Pressure Dynamics, Spontaneous Ignition and Flame Propagation During Hydrogen Release from High-pressure Storage Tank through 15 mm Diameter Tube and Exhaust Chamber Connected to Atmosphere”, Fuel J., Vol. 182, pp. 419–427, 2016.##
Hosseinzadeh, R. “Design and Fabrication of Dynamic Pressure Sensors Calibrator.”, Master Dissertation, K. N. Toosi University, Faculty of Mechanical Engineering, 1393 (in Persian).##
Justusson, B., Pankow, M., Heinrich, C., Rudolph, M., and Waas, A. M. “Use of a Shock Tube to Determine the Bi-axial Yield of an Aluminum Alloy under High Rates”, Int. J. Impact Eng, Vol. 58, pp. 55–65, 2013.##
Laboratory, N. P. “Guide to the Measurement of Pressure and Vacuum”, London: Institute of Measurement and Control, 1998.##
Endevco, “Piezoresistive Pressure Transducer Model 8530B -1000.” 2015.##
sardarzadeh, F. (2019). The Experimental Study of the Effect of a Diaphragm Thickness on the Position of Planar Shock Wave Formation in a Gas Shock Tube. Aerospace Mechanics, 15(4), 83-94.
MLA
forough sardarzadeh. "The Experimental Study of the Effect of a Diaphragm Thickness on the Position of Planar Shock Wave Formation in a Gas Shock Tube", Aerospace Mechanics, 15, 4, 2019, 83-94.
HARVARD
sardarzadeh, F. (2019). 'The Experimental Study of the Effect of a Diaphragm Thickness on the Position of Planar Shock Wave Formation in a Gas Shock Tube', Aerospace Mechanics, 15(4), pp. 83-94.
VANCOUVER
sardarzadeh, F. The Experimental Study of the Effect of a Diaphragm Thickness on the Position of Planar Shock Wave Formation in a Gas Shock Tube. Aerospace Mechanics, 2019; 15(4): 83-94.
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