Experimental investigation of fibre reinforced plastics with hybrid layups under high-velocity impact loads

This paper deals with experimental investigations concerning energy dissipation capacity of different kinds of reinforcement fibres in monolithic and hybrid layups under high-velocity impact loads. The investigated kinds of fibres are carbon, glass and basalt fibres. Therefore test panels, using the...

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Main Authors: Marco Romano, Carl J. J. Hoinkes, Ingo Ehrlich, Johann Höcherl, Norbert Gebbeken
Format: Article
Language:English
Published: Gruppo Italiano Frattura 2014-07-01
Series:Fracture and Structural Integrity
Subjects:
Online Access:https://www.fracturae.com/index.php/fis/article/view/1270
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author Marco Romano
Carl J. J. Hoinkes
Ingo Ehrlich
Johann Höcherl
Norbert Gebbeken
author_facet Marco Romano
Carl J. J. Hoinkes
Ingo Ehrlich
Johann Höcherl
Norbert Gebbeken
author_sort Marco Romano
collection DOAJ
description This paper deals with experimental investigations concerning energy dissipation capacity of different kinds of reinforcement fibres in monolithic and hybrid layups under high-velocity impact loads. The investigated kinds of fibres are carbon, glass and basalt fibres. Therefore test panels, using the same thermoset resin, were built up and cured by autoclave processing. The fibre volume content of the test panels has been determined. Furthermore the influence of a separating layer at selected positions in the hybrid stacked panels was investigated. The results show the influence and the energy dissipation capacity of each single kind of fibre and the enhanced properties for the hybrid layups by hybrid stacking sequences and the use of a separating core material.
format Article
id doaj-art-4339bb6b217642519bc4dadf2be92d6c
institution Kabale University
issn 1971-8993
language English
publishDate 2014-07-01
publisher Gruppo Italiano Frattura
record_format Article
series Fracture and Structural Integrity
spelling doaj-art-4339bb6b217642519bc4dadf2be92d6c2025-01-03T00:40:26ZengGruppo Italiano FratturaFracture and Structural Integrity1971-89932014-07-01829Experimental investigation of fibre reinforced plastics with hybrid layups under high-velocity impact loadsMarco RomanoCarl J. J. HoinkesIngo EhrlichJohann HöcherlNorbert GebbekenThis paper deals with experimental investigations concerning energy dissipation capacity of different kinds of reinforcement fibres in monolithic and hybrid layups under high-velocity impact loads. The investigated kinds of fibres are carbon, glass and basalt fibres. Therefore test panels, using the same thermoset resin, were built up and cured by autoclave processing. The fibre volume content of the test panels has been determined. Furthermore the influence of a separating layer at selected positions in the hybrid stacked panels was investigated. The results show the influence and the energy dissipation capacity of each single kind of fibre and the enhanced properties for the hybrid layups by hybrid stacking sequences and the use of a separating core material.https://www.fracturae.com/index.php/fis/article/view/1270Fibre reinforced plastic
spellingShingle Marco Romano
Carl J. J. Hoinkes
Ingo Ehrlich
Johann Höcherl
Norbert Gebbeken
Experimental investigation of fibre reinforced plastics with hybrid layups under high-velocity impact loads
Fracture and Structural Integrity
Fibre reinforced plastic
title Experimental investigation of fibre reinforced plastics with hybrid layups under high-velocity impact loads
title_full Experimental investigation of fibre reinforced plastics with hybrid layups under high-velocity impact loads
title_fullStr Experimental investigation of fibre reinforced plastics with hybrid layups under high-velocity impact loads
title_full_unstemmed Experimental investigation of fibre reinforced plastics with hybrid layups under high-velocity impact loads
title_short Experimental investigation of fibre reinforced plastics with hybrid layups under high-velocity impact loads
title_sort experimental investigation of fibre reinforced plastics with hybrid layups under high velocity impact loads
topic Fibre reinforced plastic
url https://www.fracturae.com/index.php/fis/article/view/1270
work_keys_str_mv AT marcoromano experimentalinvestigationoffibrereinforcedplasticswithhybridlayupsunderhighvelocityimpactloads
AT carljjhoinkes experimentalinvestigationoffibrereinforcedplasticswithhybridlayupsunderhighvelocityimpactloads
AT ingoehrlich experimentalinvestigationoffibrereinforcedplasticswithhybridlayupsunderhighvelocityimpactloads
AT johannhocherl experimentalinvestigationoffibrereinforcedplasticswithhybridlayupsunderhighvelocityimpactloads
AT norbertgebbeken experimentalinvestigationoffibrereinforcedplasticswithhybridlayupsunderhighvelocityimpactloads