Development of a mathematical model of a force actuator for the opening of a space structure with transformable configuration

The prospects for the development of radio astronomy, solar energy, space communications, exploration of the Earth’s surface and other planets from space are currently associated with the creation of fundamentally new large-sized space structures. The inevitable complication of the design schemes of...

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Bibliographic Details
Published in:Journal of physics. Conference series 2022-04, Vol.2231 (1), p.12029
Main Authors: Zimin, V N, Krylov, A V, Kuvyrkin, G N, Shakhverdov, A O
Format: Article
Language:English
Subjects:
Actuation
Actuators
Configurations
Earth surface
Elongation
Mathematical models
Mechanical properties
Nickel base alloys
Nickel compounds
Nickel titanides
Physics
Radio astronomy
Shape effects
Shape memory
Shock loads
Solar energy
Titanium compounds
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Summary:The prospects for the development of radio astronomy, solar energy, space communications, exploration of the Earth’s surface and other planets from space are currently associated with the creation of fundamentally new large-sized space structures. The inevitable complication of the design schemes of promising large-sized systems due to the increase in their operational functionality requires the development of mathematical models that adequately describe the mechanical properties of structures. When designing large-sized systems, the scheme of which allows for automatic configuration change of the structure, it is necessary to take into account shock loads. They inevitably arise when the working state of the structure fixes in orbit upon completion of the process of its opening. To ensure smooth, reliable and shock-free opening of large-sized space structures, it is proposed to use force actuators with active elements made of titanium nickelide material with a shape memory effect. During the tests of the active elements, the main parameters of the force actuator were determined: the generated force, the actuation time and the length of the working stroke. The length of the working stroke was determined by the change in the relative elongation of the active element of the force actuator during its heating. The conducted experimental and theoretical studies are aimed at developing a mathematical model of the functioning of an active element made of titanium nickelide with a shape memory effect for the opening of a space structure with transformable configuration.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/2231/1/012029