The primary objectives of this study were to obtain the necessary data and develop a calculation procedure that would facilitate predicting the atmospheric-helium contribution to the drag of a satellite having a predominantly convex exterior. Molecular-beam techniques were used to measure, for several incidence angles, the spatial and energy distributions of 7000 m/s helium atoms scattered from a 6061-T6 aluminum plate and an anodized 1235-0 aluminum surface. From these measured distributions, tangential and normal momentum accommodation coefficients were calculated as functions of incidence angle. Using these calculated accommodation coefficients, one can predict drag coefficients for satellites having predominantly convex exteriors. For spherical satellites, drag coefficients of 2.64 and 2.62 were predicted for the subject surfaces.
Satellite drag coefficients calculated from measured distributions of reflected helium atoms
AIAA Journal ; 17
1979-12-01
Miscellaneous
No indication
English
Modeling satellite drag coefficients with response surfaces
Elsevier | 2014
|Modeling satellite drag coefficients with response surfaces
Online Contents | 2014
|