Microvibration analysis methods review-Reference-Cited by-同舟云学术

Microvibration analysis methods review

Published:2023-12-31 Issue:4 Volume:7 Page:243-250
ISSN:2618-7957
Container-title:Spacecrafts & Technologies
language:ru
Short-container-title:S&T

Author:

Kravchunovsky A. P.¹

Affiliation:

1. JSC «Academician M. F. Reshetnev» Information Satellite Systems»

Abstract

It is known that today the problem of microvibration in spacecraft structures is relevant and widely researched. On- orbit operation of modern spacecrafts such as geodetic satellites, Earth observation satellites or space telescopes is associated with the use of onboard equipment sensitive to micro- vibration. In most cases, the conditions for the normal functioning of precision spacecraft equipment are provided by the operation of electromechanical devices, which in turn are sources of vibration. This article attempts to highlight the main approaches to the microvibration analysis that are known today. In this regard, the analysis of both native and foreign sources, in which the central problem is the analysis of microvibration, is carried out. This paper takes formulation of the microvibration problem and its role in the creation of modern spacecraft process. It also gives a literature review on methods and approaches to the microvibration analysis of spacecraft. Based on the analysis of publications on a similar topic, here one can find the tasks to solve in the process of the spacecraft microvibration analysis. The advantages, disadvantages and limitations of existing approaches and methods are revealed.

Publisher

TP National Information Satellite System

Subject

Marketing,Organizational Behavior and Human Resource Management,Strategy and Management,Drug Discovery,Pharmaceutical Science,Pharmacology

Reference35 articles.

1. ECSS-E-HB-32–26A / Space engineering. Spacecraft mechanical loads analysis handbook. ECSS Secretariat. Noordwijk, The Netherlands, 19 February 2013.

2. Zhang H., Li S., Liu S., Zhang Z. and Wang Y. 2018 Coupled microvibration analysis of space optical load platform. AIAA J. 56(9) doi: org/10.2514/1.J056857.

3. Alkomy H., Shan J. Modeling and validation of reaction wheel micro- vibrations considering imbalances and bearing disturbances, 2020 J. Sound Vib. 492(3) 1701 doi:10.1016/j.jsv.2020.115766

4. Gecha V. Ya., Efanov V. V., Klishev O. P., Kuznetsov D. A., Moskatinev I. V., Telepnev P. P. The effect of vibrations on the target precision equipment of spacecraft // Polet, 2015, no. 3, pp. 20–24. (In Rus.)

5. Ermakov V. Yu., Efanov V. V., Klishev O. P., Kuznetsov D. A., Tsyplakov A. E., Telepnev P. P. A new way to reduce vibration disturbances of target equipment of precision spacecraft // Cosmonautics and rocket science, 2014, no. 6, pp. 80–85. (In Rus.)