In this paper,four novel evaluation indices and corresponding hierarchical optimization strategies are proposed for a deployable solar array system considering panel flexibility and joint clearance.The deployable solar array model consists of a rigid main-body,two panels and four key mechanisms,containing torsion spring mechanism,closed cable loop mechanism,latch mech-anism and attitude adjustment mechanism.Rigid and flexible components are established by Nodal Coordinate Formulation and Absolute Nodal Coordinate Formulation,respectively.The clearance joint model is described by nonlinear contact force model and amendatory Coulomb friction model.The latch time,stabilization time,maximum contact force and impulse sum of the contact force of the solar array system are selected as the four novel evaluation indices to represent the complex dynamic responses of a deployable solar array with clearance joints instead of the lock torque widely used in conventional works.To eliminate the gross errors caused by the nonlinear and non-smooth mechanical properties,a hierarchical optimization strategy based on an adaptive simulated annealing algorithm and a nondominated sorting genetic algorithm is adopted for the solar array system with clearance joints.Results indicate that the effects of panel flexibility on the evaluation index responses and design optimization of the solar array system cannot be neglected.Besides,increasing the weight factor of the stabilization time index of the rigid system may compensate for the differences in optimal results of the rigid flexible coupling system.That may provide some references for optimization design of deployable space mechanisms considering clearance joints.

Yuanyuan LI;Meng LI;Yufei LIU;Xinyu GENG;Chengbo CUI

Qian Xuesen Laboratory of Space Technology,China Academy of Space Technology,Beijing 100094,China

中国航空学报（英文版）

[1]Yuanyuan LI;Meng LI;Yufei LIU;Xinyu GENG;Chengbo CUI-.Parameter optimization for torsion spring of deployable solar array system with multiple clearance joints considering rigid-flexible coupling dynamics)[J].中国航空学报（英文版）,2022(03):509-524

amendatory

Parameter,optimization,torsion,spring,deployable,solar,array,system,multiple,clearance,joints,considering,rigid,flexible,coupling,dynamics,In,this,paper,four,novel,evaluation,indices,corresponding,hierarchical,strategies,are,proposed,flexibility,model,consists,main,body,two,panels,key,mechanisms,containing,closed,cable,loop,latch,attitude,adjustment,Rigid,components,established,by,Nodal,Coordinate,Formulation,Absolute,respectively,described,nonlinear,contact,force,Coulomb,friction,stabilization,maximum,impulse,sum,selected,represent,complex,responses,instead,lock,torque,widely,conventional,works,To,eliminate,gross,errors,caused,smooth,mechanical,properties,strategy,adaptive,simulated,annealing,algorithm,nondominated,sorting,genetic,adopted,Results,indicate,that,effects,design,cannot,neglected,Besides,increasing,weight,may,compensate,differences,optimal,results,That,provide,some,references,space

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