Experimental study on a novel cable-strut truss

[Display omitted] •Mechanical property of a novel planar cable-strut truss is experimentally verified.•A scale model of this novel planar cable-strut truss is designed and manufactured.•Pre-stressing, static loading and natural frequency of it are tested.•Experimental results are generally consisten...

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Veröffentlicht in:	Engineering structures 2022-08, Vol.265, p.114491, Article 114491
Hauptverfasser:	Zheng, Yanfeng, Li, Sili, Xu, Xian
Format:	Artikel
Sprache:	eng
Schlagworte:	Cable-strut truss Internal forces Mechanical properties Natural frequency Pre-stressing Prestressing Resonant frequencies Scale model experiment Scale models Static loading Topology Topology optimization Trusses
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container_title	Engineering structures
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creator	Zheng, Yanfeng Li, Sili Xu, Xian
description	[Display omitted] •Mechanical property of a novel planar cable-strut truss is experimentally verified.•A scale model of this novel planar cable-strut truss is designed and manufactured.•Pre-stressing, static loading and natural frequency of it are tested.•Experimental results are generally consistent with numerical results. This paper experimentally verifies the mechanical properties of a novel planar cable-strut truss found by topology optimization. A scale model of this novel planar cable-strut truss is designed and manufactured. Experimental studies on the pre-stressing, static loading, and natural frequency of it are carried out. The experimental results of internal forces, displacements, and the first-order frequency and mode are generally consistent with the numerical results. This experimental verification provides a stronger proof for the engineering applicability of the novel cable-strut truss.
doi_str_mv	10.1016/j.engstruct.2022.114491
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This paper experimentally verifies the mechanical properties of a novel planar cable-strut truss found by topology optimization. A scale model of this novel planar cable-strut truss is designed and manufactured. Experimental studies on the pre-stressing, static loading, and natural frequency of it are carried out. The experimental results of internal forces, displacements, and the first-order frequency and mode are generally consistent with the numerical results. 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This paper experimentally verifies the mechanical properties of a novel planar cable-strut truss found by topology optimization. A scale model of this novel planar cable-strut truss is designed and manufactured. Experimental studies on the pre-stressing, static loading, and natural frequency of it are carried out. The experimental results of internal forces, displacements, and the first-order frequency and mode are generally consistent with the numerical results. 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This paper experimentally verifies the mechanical properties of a novel planar cable-strut truss found by topology optimization. A scale model of this novel planar cable-strut truss is designed and manufactured. Experimental studies on the pre-stressing, static loading, and natural frequency of it are carried out. The experimental results of internal forces, displacements, and the first-order frequency and mode are generally consistent with the numerical results. This experimental verification provides a stronger proof for the engineering applicability of the novel cable-strut truss.</abstract><cop>Kidlington</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.engstruct.2022.114491</doi></addata></record>
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subjects	Cable-strut truss Internal forces Mechanical properties Natural frequency Pre-stressing Prestressing Resonant frequencies Scale model experiment Scale models Static loading Topology Topology optimization Trusses
title	Experimental study on a novel cable-strut truss
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