Article
Heat and Mass Transfer and Physical Gasdynamics
2021. V. 59. № 1. P. 99–105
Zinchenko V.I., Gol'din V.D.
Reduction of the maximum surface temperatures under a supersonic flow around a spherically blunted cone
Annotation
The conjugate problem of nonstationary heat transfer in a supersonic flow over a spherically blunted cone at a high Mach number $(\rm M_{\infty} = 9.9)$ is considered. Under these conditions, the maximum temperatures of the streamlined shell can be as high as the material fracture temperature. Hence, it is essential to assess the potential methods of their reduction. The generalized criterion dependences derived from the numerical solution of the nonstationary conjugate problem make it possible to estimate the necessary decrease in the maximum temperature of the body surface via the selection of the proper geometry and thermophysical characteristics of the materials of the spherical and conical regions of the body.
Article reference:
Zinchenko V.I., Gol'din V.D. Reduction of the maximum surface temperatures under a supersonic flow around a spherically blunted cone, High Temp., 2021. V. 59. № 1. P. 99
Zinchenko V.I., Gol'din V.D. Reduction of the maximum surface temperatures under a supersonic flow around a spherically blunted cone, High Temp., 2021. V. 59. № 1. P. 99
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Impact factor 2022: 1.0
ISSN: 0040-3644 (Russian version)
ISSN: 0018-151X (English version)
ISSN: 1608-3156 (Online version)
ISSN: 1608-3156 (Online version)
