强激光与粒子束2024,Vol.36Issue(1):130-138,9.DOI:10.11884/HPLPB202436.230269
四代光源储存环磁铁支撑设计及仿真优化
Design,simulation and optimization of magnet supports in 4th generation synchrotron light sources
摘要
Abstract
The static deformation and adjustment precision of the storage ring's mechanical support determine the positioning accuracy of each physical component.The dynamic response characteristics of these components affect the stability of the beam current.Therefore,mechanical support serves as the installation foundation for all physical components,ensuring the correct installation and operation of magnets,vacuum chambers,beam diagnostics,and other elements,thereby enabling them to exhibit their corresponding physical performance.Therefore,designing mechanical support with high stability holds extraordinary significance.Taking the Shenzhen Innovation Light source Facility(SILF)as an example,this article utilizes SolidWorks and Ansys software to design and optimize the magnets support of the storage ring.The process of mechanical support design and optimization simulation for the storage ring is elaborated in detail.The final design is assembled with the magnet model,and the overall support is simulated and validated as closely as possible to the real operating conditions to ensure compliance with the parameter requirements of the physical design.关键词
机械支撑设计/仿真分析/静力分析/模态分析/拓扑优化Key words
mechanical support design/simulation/static structural analysis/modal analysis/topology optimization分类
能源科技引用本文复制引用
黄晴晴,杨振,罗涛,齐志军,苗学策..四代光源储存环磁铁支撑设计及仿真优化[J].强激光与粒子束,2024,36(1):130-138,9.基金项目
国家自然科学基金项目(12175319) (12175319)
