Analysis of Gossamer Structures Using Assumed-Strain Solid-Shell Finite Elements

Keejoo Lee; Sung W. Lee

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Analysis of Gossamer Structures Using Assumed-Strain Solid-Shell Finite Elements

机译：假设应变固体壳有限元分析蛛网结构

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The objective of this study is to investigate the applicability of assumed-strain solid-shell finite elements for analysis of gossamer space and near-space structures such as solar sails and scientific balloons. The solid-shell element formulation that alleviates the element locking via the assumed-strain approach has been successfully used for analysis of extremely thin structures. In this study, quadruple precision is explored to further extend the capability of the nine-node assumed-strain solid-shell elements to analyses of extremely thin structures. As examples, geometrically nonlinear static analyses of solar sail ribbons and a square membrane are carried out, without using any stabilizing scheme. Subsequently, the assumed-strain solid-shell element formulation with quadruple precision are successfully used to determine the deformed shape and the stress distribution of a scientific balloon at various altitudes.

机译：这项研究的目的是研究假设应变的固体壳有限元在游丝空间和近空间结构（如太阳帆和科学气球）分析中的适用性。通过假定的应变方法减轻元素锁定的坚固外壳配方已成功用于超薄结构的分析。在这项研究中，探索了四倍精度，以进一步扩展九节点假定应变固体壳单元的能力，以分析极薄的结构。例如，在不使用任何稳定方案的情况下，对太阳帆带和方形膜进行了几何非线性静态分析。随后，成功地使用具有四倍精度的假定应变固体壳单元公式确定了不同高度的科学气球的变形形状和应力分布。

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来源
《Journal of Spacecraft and Rockets》 |2006年第6期|p.1301-1307|共7页
作者
Keejoo Lee; Sung W. Lee;
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作者单位

University of Maryland, College Park, Maryland, 20742;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类航空;
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Analysis of Gossamer Structures Using Assumed-Strain Solid-Shell Finite Elements

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