摘要
太阳电池组件是航天器电源系统的重要组成部分,由于组件之间热膨胀系数的差异,在太空极限温度载荷条件下,串联2电池间的互连片组件可能会出现焊点连接失效问题。针对某柔性薄膜砷化镓太阳电池组件,根据高温设计条件,采用有限元仿真建模技术对太阳电池的局部焊点进行焊点拉力计算,并从柔性连接组件互连片出发,探究互连片形状和材料对焊点热适应性的影响,为太阳电池组件柔性连接设计提供参考。
Solar cell components are an important part of the spacecraft power system.Due to the difference in the thermal expansion coefficients between the components,the interconnected sheet assembly between two cells in series may suffer from welding spot failure under the extreme temperature loading conditions in space.For a flexible thin-film GaAs solar cell component,the finite element simulation modeling technique is used to calculate the welding spot strength on the local welding spots of the solar component according to the high temperature design conditions.The flexible connection component-interconnection sheet is used to explore the influence of the shape and material on the welding spot thermal adaptability,and it provides a reference for the flexible connection design of solar components.
作者
沈静曼
杨洋
焦小雨
宋琳琳
张军
王训春
许京荆
汪鑫
SHEN Jingman;YANG Yang;JIAO Xiaoyu;SONG Linlin;ZHANG Jun;WANG Xunchun;XU Jingjing;WANG Xin(State Key Laboratory of Space Power-Sources Technology,Shanghai Institute of Space Power,Shanghai 201100,China;School of Mechatronic and Engineering and Automation,Shanghai University,Shanghai 200444,China)
出处
《电子与封装》
2023年第4期24-32,共9页
Electronics & Packaging
基金
载人航天第四批预先研究项目(050401)
上海市浦江人才计划(2020PJD034)
航天先进制造技术研究联合基金(U1937601)。
关键词
柔性太阳电池
焊点拉力
柔性连接
互连片
有限元仿真
flexible solar cell
welding spot strength
flexible connection
interconnected sheet
finite element simulation
