On the design, elastic modeling and experimental characterization of novel tensegrity units

Q1 Social Sciences

PSU Research Review Pub Date : 2018-08-30 DOI:10.1108/PRR-07-2018-0019

Z. Bieniek, Ida Mascolo, A. Amendola

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Abstract

Purpose This study aims to focus on a short review on recent results dealing with the mechanical modelling and experimental characterization of a novel class of tensegrity structures, named class θ = 1 tensegrity prisms. The examined structures exhibit six bars connected by two disjoint sets of strings. Design/methodology/approach First, the self-equilibrium problem of tensegrity θ = 1 prisms is numerically investigated for varying values of two aspect parameters and, next, their prestress stability is studied. The mechanical behavior of the examined structures in the large displacements regime under uniform compression loading is also numerically computed through a path-following procedure. Finally, the predicted constitutive response is validated through experimental tests. Findings The presented results highlight that the examined structures exhibit a large number of infinitesimal mechanisms from the freestanding configuration, and reveal that they exhibit tunable elastic response switching from stiffening to softening. Originality/value This multi-faceted elastic response is in agreement with previous literature results on the elastic response of minimal tensegrity prism, and suggests that such units can be usefully used as non-linear springs in next-generation tensegrity metamaterials.

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新型张拉整体单元的设计、弹性建模及实验表征

本研究旨在对一类新型张拉整体结构的力学建模和实验表征的最新结果进行简要回顾，称为class θ = 1张拉整体棱镜。所检查的结构显示出由两组不相交的弦连接的六个杆。设计/方法/途径:首先对张拉整体θ = 1棱镜的自平衡问题进行了数值研究，然后对其预应力稳定性进行了研究。通过路径跟踪程序，对大位移区结构在均匀压缩载荷作用下的力学行为进行了数值计算。最后，通过实验验证了预测的本构响应。研究结果表明，所研究的结构在独立结构中表现出大量的无限小机制，并显示出它们表现出从硬化到软化的可调弹性响应。这种多面弹性响应与文献中关于最小张拉整体棱镜弹性响应的结果一致，表明该单元可作为非线性弹簧应用于下一代张拉整体超材料中。

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