模式各向异性对自由边单层网壳结构性能的影响

IF 1.1 Q4 MECHANICS

Curved and Layered Structures Pub Date : 2021-01-01 DOI:10.1515/cls-2021-0011

F. Venuti

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引用次数: 6

摘要

摘要自由边格壳代表了大多数已建成的格壳。事实上，通常需要修剪格构参考几何图形，以便提供建筑通道或将格构插入现有建筑中，从而产生一个或多个弹性边界。尽管目前有设计实践，但到目前为止，用于研究弹性边界对格栅壳体整体结构性能的影响的科学研究数量非常有限。本文重点研究了边界结构相对于网格方向的方向的影响。这是通过研究不同网格布局（四边形、混合型、三角形）和方向的理想单层钢网架的屈曲行为来完成的。参数研究结果表明，自由边单层网格壳体对自由边方向的敏感性在很大程度上取决于网格模式。特别是，与正交各向异性网格壳相反，各向同性网格壳在屈曲载荷方面显示出几乎可以忽略的自由边缘方向的影响。此外，自由边缘方向的变化会导致所有布局的整体结构刚度发生显著变化，导致在使用条件下可能出现不可接受的位移。

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Influence of pattern anisotropy on the structural behaviour of free-edge single-layer gridshells

Abstract Free-edge gridshells represent the majority of built gridshells. Indeed, the gridshell reference geometry usually needs to be trimmed in order to provide building access or to insert the gridshell within an existing building, giving rise to one or more elastic boundaries. Despite the current design practice, so far a very limited number of scientific studies has been devoted to investigate the influence of elastic boundaries on the overall structural behaviour of gridshells. This paper focuses on the effects of the orientation of the boundary structure with respect to the grid direction. This is done by studying the buckling behaviour of an ideal single-layer steel gridshell, for different grid layout (quadrangular, hybrid, triangular) and orientation. The results of the parametric study demonstrate that the sensitivity of free-edge single-layer gridshells to the free-edge orientation strongly depends on the grid pattern. In particular, isotropic gridshells have shown an almost negligible influence of the free-edge orientation in terms of buckling load, in opposition to orthotropic gridshells. Moreover, the change in free-edge orientation induces significant variations of the global structural stiffness for all the layouts, resulting in possibly unacceptable displacements in service conditions.

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来源期刊

Curved and Layered Structures MECHANICS-

CiteScore

2.60

自引率

13.30%

发文量

审稿时长

14 weeks

期刊介绍： The aim of Curved and Layered Structures is to become a premier source of knowledge and a worldwide-recognized platform of research and knowledge exchange for scientists of different disciplinary origins and backgrounds (e.g., civil, mechanical, marine, aerospace engineers and architects). The journal publishes research papers from a broad range of topics and approaches including structural mechanics, computational mechanics, engineering structures, architectural design, wind engineering, aerospace engineering, naval engineering, structural stability, structural dynamics, structural stability/reliability, experimental modeling and smart structures. Therefore, the Journal accepts both theoretical and applied contributions in all subfields of structural mechanics as long as they contribute in a broad sense to the core theme.