Litcius/Paper detail

Simulation and validation of space deployable membrane structures using the absolute nodal coordinate formulation

Zhuoran Huang, Haoming Li LI, Zhiming Deng, Cheng Wei

2025Advances in Space Research15 citationsDOIOpen Access PDF

Abstract

• Integrated crease-contact model developed for space film mechanisms. • PSO optimizes parameters under extreme temperatures. • Experiments validate model (4.73% error), guiding aerospace design. Foldable membrane structures, with light weight and foldability, suit the trend of large-scale, lightweight spacecraft and are used in components like antennas and sunshades. This study models crease dynamics to analyze space deployable membrane structure deployment. A deployment model uses crease elements, including pre - configured ANCF shell elements, constraint and contact models, and a Particle Swarm Optimization (PSO) parameter - identification method. Experiments and simulations validate the model and analyze the structure. Tensile tests at high and low temperatures identify membrane and crease dynamic parameters. Single - crease deployment experiments and simulations verify the model’s configuration accuracy. Simulations show the necessity of the inter - layer contact model. Multi - crease deployment experiments and simulations confirm the model’s mechanical property correctness. Comparing high and low temperature simulations reveals low - temperature impacts on deployment. This paper presents an engineering feasible crease modeling method for space membrane structure design and optimization.

Topics & Concepts

NODALCoordinate systemSpace (punctuation)Coordinate spaceComputer sciencePhysicsGeometryMathematicsMedicineAnatomyOperating systemStructural Analysis and OptimizationDynamics and Control of Mechanical SystemsAdvanced Materials and Mechanics
Simulation and validation of space deployable membrane structures using the absolute nodal coordinate formulation | Litcius