Effect of inflating air on the static behavior of ETFE cushions

IF 0.9 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
Xiaofeng Wang, Yingtao Chen, Qingshan Yang
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引用次数: 0

Abstract

Inflated membranes are a kind of flexible structure with the enveloping membrane supported by the inflating air. A change in the pressure of the inflating air resulting from the deformation of the enveloping membrane will induce a change in the stress state and stiffness of the enveloping membrane, and hence influence the mechanical behavior of inflated membranes. This paper studies the effect of inflating air on the static behavior of inflated membranes via the geometrically nonlinear analysis of square ETFE (ethylene-tetrafluoroethylene) cushions under a uniformly distributed load on the top membrane. Three different models are adopted in the analysis, in which the inflating air is treated respectively as the traction boundary conditions of the enveloping membrane, a kind of fluid satisfying the ideal gas equation and a potential-based fluid. The results obtained from the models are compared to investigate their accuracies and the effect of inflating air. Based on the actual variation of the internal pressure with the deformation, a new model with correct treatment of the influence of inflating air is then proposed and its validity and accuracy for different influencing parameters, e.g., initial internal pressure, membrane thickness, side length, rise-to-span ratio, etc., are further investigated. The results show that: (a) The effect of inflating air is characterized by the air-membrane interaction, and it makes the top and bottom membranes work together as a whole. (b) The inflating air has a significant influence on the mechanical behavior of a cushion with less deformation. (c) The effect of inflating air can be approximated by a linear function with respect to the ratio of its pressure to the density. (d) The proposed model of the inflating air is accurate for different influencing factors, and it can be used as an efficient approach to the effect of inflating air without any effort to deal with the fluid-structure interaction in the computation. The present research facilitates the accurate understanding of the effect of inflating air and the mechanical behavior of inflated membranes for rational design and reliable engineering application.

充气对 ETFE 衬垫静态行为的影响
充气膜是一种由充气空气支撑包膜的柔性结构。充气空气压力的变化会导致包膜变形,从而引起包膜应力状态和刚度的变化,进而影响充气膜的力学行为。本文通过对正方形 ETFE(乙烯-四氟乙烯)软垫进行几何非线性分析,研究了充气空气对充气膜静态行为的影响。分析中采用了三种不同的模型,其中充气空气分别被视为包膜的牵引边界条件、一种满足理想气体方程的流体和一种基于势能的流体。比较了模型得出的结果,以研究其精确性和充气空气的影响。根据内压随变形的实际变化,提出了正确处理充气影响的新模型,并进一步研究了其对不同影响参数(如初始内压、膜厚、边长、升跨比等)的有效性和准确性。结果表明(a) 充气空气的作用特点是空气-膜相互作用,它使顶部和底部膜作为一个整体共同工作。(b) 充气对缓冲垫的机械行为有显著影响,变形较小。(c) 充气空气的影响可以用其压力与密度比值的线性函数来近似表示。(d) 所提出的充气模型对于不同的影响因素都是准确的,而且可以作为一种有效的方法来研究充气的影响,而无需在计算中处理流体与结构的相互作用。本研究有助于准确理解充气空气的影响和充气膜的机械行为,从而进行合理的设计和可靠的工程应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Mechanics of Materials and Structures
Journal of Mechanics of Materials and Structures 工程技术-材料科学:综合
CiteScore
1.40
自引率
0.00%
发文量
8
审稿时长
3.5 months
期刊介绍: Drawing from all areas of engineering, materials, and biology, the mechanics of solids, materials, and structures is experiencing considerable growth in directions not anticipated a few years ago, which involve the development of new technology requiring multidisciplinary simulation. The journal stimulates this growth by emphasizing fundamental advances that are relevant in dealing with problems of all length scales. Of growing interest are the multiscale problems with an interaction between small and large scale phenomena.
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