Litcius/Paper detail

Deployment analysis of composite thin-walled lenticular tubes with effect of storage time and temperature

Jinfeng DENG, Ning An, Qilong Jia, Xiaofei Ma

2023Chinese Journal of Aeronautics20 citationsDOIOpen Access PDF

Abstract

Composite Thin-walled Lenticular Tube (CTLT) is increasingly utilized in small satellites missions as a lightweight, foldable, and rollable structural material that facilitates the construction of large deployable systems. The CTLT is initially flattened and coiled around a central hub for storage before launch, during which elastic energy is stored as deformation energy, allowing it to be self-deployed on demand for use in orbit. This work presents a comprehensive investigation into the coiling, storage and deployment behaviors of CTLT that wraps around a central hub. A nonlinear explicit dynamic finite element model was developed with both deformable CTLT and rigid-bodies mechanisms including the central hub and guide rollers, as well as the complex interactions among them. The coiling mechanics characteristics such as stored strain energy and rotational moment were presented and validated against experimental data in the literature. Then, the dynamic deployment behaviors were analyzed in terms of two different deployment methods, namely, controlled deployment and free deployment. The effect of material property change during storage was also discussed through numerical experiments.

Topics & Concepts

Software deploymentFinite element methodTube (container)Structural engineeringDeformation (meteorology)Orbit (dynamics)Mechanical engineeringWork (physics)Aerospace engineeringEngineeringMaterials scienceComputer scienceComposite materialSoftware engineeringStructural Analysis and OptimizationAdvanced Materials and MechanicsPlanetary Science and Exploration