Fracture and strain rate behavior of airplane fuselage materials under blast loading

Fracture and strain rate behavior of airplane fuselage materials under blast loading

The dynamic behavior of three commonly used airplane fuselage materials is investigated, namely of Al2024-T3, Glare-3 and CFRP. Dynamic tensile tests using a servo-hydraulic and a light weight shock testing machine (LSM) have been performed. The results showed no strain rate effect on Al2024-T3 an...

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Main Authors: van der Meulen O.R., van Aanhold J.E., Kroon E., Soetens F., Sagimon M., Mediavilla Varas J.
Format: Article
Language:English
Published: EDP Sciences 2010-06-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/20100642017
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spelling doaj-b6fabebd3573446b853f416fbc4419142021-08-02T02:58:31ZengEDP SciencesEPJ Web of Conferences2100-014X2010-06-0164201710.1051/epjconf/20100642017Fracture and strain rate behavior of airplane fuselage materials under blast loadingvan der Meulen O.R.van Aanhold J.E.Kroon E.Soetens F.Sagimon M.Mediavilla Varas J.The dynamic behavior of three commonly used airplane fuselage materials is investigated, namely of Al2024-T3, Glare-3 and CFRP. Dynamic tensile tests using a servo-hydraulic and a light weight shock testing machine (LSM) have been performed. The results showed no strain rate effect on Al2024-T3 and an increase in the failure strain and failure strength of Glare-3, but no stiffening. The LSM results on CFRP were inconclusive. Two types of fracture tests were carried out to determine the dynamic crack propagation behavior of these materials, using prestressed plates and pressurized barrels, both with the help of explosives. The prestressed plates proved to be not suitable, whereas the barrel tests were quite reliable, allowing to measure the crack speeds. The tougher, more ductile materials, Al2024-T3 and Glare-3, showed lower crack speeds than CFRP, which failed in a brittle manner. http://dx.doi.org/10.1051/epjconf/20100642017
collection DOAJ
language English
format Article
sources DOAJ
author van der Meulen O.R.
van Aanhold J.E.
Kroon E.
Soetens F.
Sagimon M.
Mediavilla Varas J.
spellingShingle van der Meulen O.R.
van Aanhold J.E.
Kroon E.
Soetens F.
Sagimon M.
Mediavilla Varas J.
Fracture and strain rate behavior of airplane fuselage materials under blast loading
EPJ Web of Conferences
author_facet van der Meulen O.R.
van Aanhold J.E.
Kroon E.
Soetens F.
Sagimon M.
Mediavilla Varas J.
author_sort van der Meulen O.R.
title Fracture and strain rate behavior of airplane fuselage materials under blast loading
title_short Fracture and strain rate behavior of airplane fuselage materials under blast loading
title_full Fracture and strain rate behavior of airplane fuselage materials under blast loading
title_fullStr Fracture and strain rate behavior of airplane fuselage materials under blast loading
title_full_unstemmed Fracture and strain rate behavior of airplane fuselage materials under blast loading
title_sort fracture and strain rate behavior of airplane fuselage materials under blast loading
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2010-06-01
description The dynamic behavior of three commonly used airplane fuselage materials is investigated, namely of Al2024-T3, Glare-3 and CFRP. Dynamic tensile tests using a servo-hydraulic and a light weight shock testing machine (LSM) have been performed. The results showed no strain rate effect on Al2024-T3 and an increase in the failure strain and failure strength of Glare-3, but no stiffening. The LSM results on CFRP were inconclusive. Two types of fracture tests were carried out to determine the dynamic crack propagation behavior of these materials, using prestressed plates and pressurized barrels, both with the help of explosives. The prestressed plates proved to be not suitable, whereas the barrel tests were quite reliable, allowing to measure the crack speeds. The tougher, more ductile materials, Al2024-T3 and Glare-3, showed lower crack speeds than CFRP, which failed in a brittle manner.
url http://dx.doi.org/10.1051/epjconf/20100642017
work_keys_str_mv AT vandermeulenor fractureandstrainratebehaviorofairplanefuselagematerialsunderblastloading
AT vanaanholdje fractureandstrainratebehaviorofairplanefuselagematerialsunderblastloading
AT kroone fractureandstrainratebehaviorofairplanefuselagematerialsunderblastloading
AT soetensf fractureandstrainratebehaviorofairplanefuselagematerialsunderblastloading
AT sagimonm fractureandstrainratebehaviorofairplanefuselagematerialsunderblastloading
AT mediavillavarasj fractureandstrainratebehaviorofairplanefuselagematerialsunderblastloading
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