2010
DOI: 10.1016/j.polymertesting.2010.01.003
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Comparative study of the quasi-static energy absorption of small-scale composite tubes with different geometrical shapes for use in sacrificial cladding structures

Abstract: This paper focuses on the quasi-static crushing characteristics and the corresponding energy absorption of nine different shapes of small-scale composite tubes. The idea is to choose suitable cross sections and geometrical shapes of the composite tubes which can yield progressive deformation and higher energy absorption; the finalized geometrical shapes will be studied further for the inner core of a sacrificial cladding structure against blast loading. All the composite tubes have been manufactured by a hand … Show more

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Cited by 66 publications
(62 citation statements)
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“…During the experimental crushing of a composite tube, the inner and outer petals were subjected to bending inside and outside of the tube followed by circumferential delamination. The material splaying outwards flared into petals due to the phenomena of axial cracks, and the material splaying inwards showed progressive folding without any petalling [1,9,18]. As a result, a considerable amount of energy was dissipated due to the axial cracking of the outer petals and significant amount of deceleration of the impactor was provided by the inner plies.…”
Section: Modelling With Seamsmentioning
confidence: 99%
“…During the experimental crushing of a composite tube, the inner and outer petals were subjected to bending inside and outside of the tube followed by circumferential delamination. The material splaying outwards flared into petals due to the phenomena of axial cracks, and the material splaying inwards showed progressive folding without any petalling [1,9,18]. As a result, a considerable amount of energy was dissipated due to the axial cracking of the outer petals and significant amount of deceleration of the impactor was provided by the inner plies.…”
Section: Modelling With Seamsmentioning
confidence: 99%
“…The energy absorption characteristics of various composite structural elements have been experimentally and theoretically studied by several researchers [1][2][3][4][5][6][7]. Different tube cross sections are employed to get the maximum energy absorption with least material investment.…”
Section: Introductionmentioning
confidence: 99%
“…The consideration of the delamination approach is important to predict the energy absorption because it causes the separation of plies and loss in bending stiffness of each sub laminate. Furthermore, many experimental studies [1,3,7,[13][14][15] have proved that the occurrence of the peak load corresponds to the start of the circumferential delamination. Hence, to understand the importance of the delamination and to achieve the typical failure patterns of a brittle composite tube, a numerical parametric study is conducted in this paper with a single layer and two layers of shell elements with cohesive elements.…”
Section: Introductionmentioning
confidence: 99%
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