Rigorous Analysis of Energy Conservation during Dynamic Deployment of Elastic Thin-Shell Structures

IF 2.6 4区 工程技术 Q2 MECHANICS
F. G. Canales, S. Pellegrino
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引用次数: 0

Abstract

This paper studies the dynamic deployment of cylindrical thin-shell structures with open cross-section and attached to a rigid support. The structures are elastically folded and then released. Previous experiments have shown that the total energy of these structures decreases while a fold moves back and forth along the shell, which was explained in terms of energy losses related to the fold “bouncing” against the boundary. This paper uses a rigorous numerical simulation, based on an in-house isogeometric shell finite element code that simultaneously eliminates shear locking and hourglassing without any intrinsic energy dissipation, to show that the total energy of the system is conserved during deployment. The discrepancy with the previous results is explained by showing that en- ergy transfers from low-frequency, “rigid body” modes to higher frequency modes, which were not measured.
弹性薄壳结构动力展开过程中节能的严格分析
本文研究了带有刚性支撑的开放截面圆柱薄壁结构的动态展开。这些结构被弹性地折叠,然后被释放。先前的实验表明,当褶皱沿着外壳来回移动时,这些结构的总能量会降低,这是根据与褶皱“反弹”到边界有关的能量损失来解释的。本文使用了严格的数值模拟,基于内部等几何壳体有限元代码,该代码在没有任何固有能量耗散的情况下同时消除了剪切锁定和沙漏形,以表明系统在部署过程中的总能量是守恒的。与先前结果的差异是通过表明能量从低频“刚体”模式转移到未测量的高频模式来解释的。
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
CiteScore
4.80
自引率
3.80%
发文量
95
审稿时长
5.8 months
期刊介绍: All areas of theoretical and applied mechanics including, but not limited to: Aerodynamics; Aeroelasticity; Biomechanics; Boundary layers; Composite materials; Computational mechanics; Constitutive modeling of materials; Dynamics; Elasticity; Experimental mechanics; Flow and fracture; Heat transport in fluid flows; Hydraulics; Impact; Internal flow; Mechanical properties of materials; Mechanics of shocks; Micromechanics; Nanomechanics; Plasticity; Stress analysis; Structures; Thermodynamics of materials and in flowing fluids; Thermo-mechanics; Turbulence; Vibration; Wave propagation
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