Shock Response Prediction of a Low Altitude Earth Observation Satellite During Launch Vehicle Separation
Dae-Oen Lee/Jae-Hung Han/Hae-Won Jang/Sung-Hyun Woo/Kyung-Won Kim
International Journal of Aeronautical and Space Sicences, vol. 11, no. 1, pp.49-57, 2010
Abstract : Several pyrotechnic devices are employed over the course of satellite's missions, generally for the separation of structural subsystems and deployment of appendages. Firing of pyrotechnic devices results in impulsive loads characterized by high peak acceleration and high frequency content which can cause failures of various flight hardware elements and small components. Thus, accurate prediction of acceleration level in various components of spacecraft due to pyrotechnic devices is important. In this paper, two methods for pyroshock prediction, an empirical model and statistical energy analysis in conjunction with virtual mode synthesis, are applied to predict shock response of a low altitude earth observation satellite during launch vehicle separation. The predicted results are then evaluated through comparison with the shock test results.
Keyword : Pyroshock, Shock Response Spectrum, Statistical Energy Analysis, Virtual Mode Synthesis and Simulation |