Numerical energy absorption study of composite tubes for axial impact loadings

This paper focuses on the numerical energy absorption behaviour of pultruded composite tubes under an axial impact loading case. The circular and square cross sectional glass-polyester composite tubes are considered for the study. In order to capture the typical failure modes such as delaminations,...

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Hauptverfasser:	Palanivelu, Sivakumar, Van Paepegem, Wim, Degrieck, Joris, Kakogiannis, Dimitrios, Van Ackeren, Johan, Wastiels, Jan, Van Hemelrijck, Danny, Vantomme, John, De Wolf, K
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Sprache:	eng
Schlagworte:	cohesive elements Composite tubes delamination energy absorption Technology and Engineering triggering
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creator	Palanivelu, Sivakumar Van Paepegem, Wim Degrieck, Joris Kakogiannis, Dimitrios Van Ackeren, Johan Wastiels, Jan Van Hemelrijck, Danny Vantomme, John De Wolf, K
description	This paper focuses on the numerical energy absorption behaviour of pultruded composite tubes under an axial impact loading case. The circular and square cross sectional glass-polyester composite tubes are considered for the study. In order to capture the typical failure modes such as delaminations, lamina bending, axial cracks and fibre fracturing, a new innovative approach was used using multiple shell elements, cohesive elements and pre-defined seams. To predict the correct peak crush load and the corresponding energy absorption, the importance of the numerical modelling of multiple delaminations and triggering are discussed. Two types of triggering were chosen for the study (45⁰ deg chamfering around the edges and a tulip pattern with an included angle between the edges of 60⁰). Finally, the results of this numerical investigation are compared with experimental data. The commercially available finite element code ABAQUS V6.7-3 Explicit was used for this study.
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The circular and square cross sectional glass-polyester composite tubes are considered for the study. In order to capture the typical failure modes such as delaminations, lamina bending, axial cracks and fibre fracturing, a new innovative approach was used using multiple shell elements, cohesive elements and pre-defined seams. To predict the correct peak crush load and the corresponding energy absorption, the importance of the numerical modelling of multiple delaminations and triggering are discussed. Two types of triggering were chosen for the study (45⁰ deg chamfering around the edges and a tulip pattern with an included angle between the edges of 60⁰). Finally, the results of this numerical investigation are compared with experimental data. 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The circular and square cross sectional glass-polyester composite tubes are considered for the study. In order to capture the typical failure modes such as delaminations, lamina bending, axial cracks and fibre fracturing, a new innovative approach was used using multiple shell elements, cohesive elements and pre-defined seams. To predict the correct peak crush load and the corresponding energy absorption, the importance of the numerical modelling of multiple delaminations and triggering are discussed. Two types of triggering were chosen for the study (45⁰ deg chamfering around the edges and a tulip pattern with an included angle between the edges of 60⁰). Finally, the results of this numerical investigation are compared with experimental data. 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subjects	cohesive elements Composite tubes delamination energy absorption Technology and Engineering triggering
title	Numerical energy absorption study of composite tubes for axial impact loadings
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