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Modelling of perforation failure in fibre metal laminates subjected to high impulsive blast loading

Modelling of perforation failure in fibre metal laminates subjected to high impulsive blast loading
Modelling of perforation failure in fibre metal laminates subjected to high impulsive blast loading

Perforation failure of fibre metal laminate (FML) panels subjected to the localized high intensity blast loading is studied. The FMLs are based on various stacking configurations of aluminium alloy sheets and layers of woven glass fibre in a polypropylene matrix (GFPP) composite. Finite element models of the FMLs were created using the commercial software package Abaqus/Explicit, where the constitutive relationships and damage in the composite material were described through a user-defined subroutine. The composite was modelled as an orthotropically elastic material prior to damage initiation and the growth of subsequent damage was based on an instant failure rate-dependent model. The simulated deformation and failure modes in the FMLs were found to be in good agreement with published experimental data. For FMLs based on thin GFPP layers, a number of dynamic failure scenarios were captured, such as petalling, large tensile tearing and multiple debonding between the aluminium and GFPP layers. A high degree of correlation between simulated failure on the back face aluminium and the underlying GFPP damage modes was revealed. Finally, the transient behaviour of FML panels during blast loading was studied and discussed.

Blast, Debonding, Fibre metal laminates, Finite element, Perforation failure, Petalling
0020-7683
3135-3146
Sitnikova, E.
e0c2f901-24fe-43d0-88e8-76f415675104
Guan, Zhongwei
0159afc3-3156-4184-bc02-adae4ef943d8
Schleyer, G. K.
7aeabcfc-076a-45ab-96e6-6bb7de7fd8ba
Cantwell, W. J.
5c47602d-c36a-488a-84ca-e800c3dd5339
Sitnikova, E.
e0c2f901-24fe-43d0-88e8-76f415675104
Guan, Zhongwei
0159afc3-3156-4184-bc02-adae4ef943d8
Schleyer, G. K.
7aeabcfc-076a-45ab-96e6-6bb7de7fd8ba
Cantwell, W. J.
5c47602d-c36a-488a-84ca-e800c3dd5339

Sitnikova, E., Guan, Zhongwei, Schleyer, G. K. and Cantwell, W. J. (2014) Modelling of perforation failure in fibre metal laminates subjected to high impulsive blast loading. International Journal of Solids and Structures, 51 (18), 3135-3146. (doi:10.1016/j.ijsolstr.2014.05.010).

Record type: Article

Abstract

Perforation failure of fibre metal laminate (FML) panels subjected to the localized high intensity blast loading is studied. The FMLs are based on various stacking configurations of aluminium alloy sheets and layers of woven glass fibre in a polypropylene matrix (GFPP) composite. Finite element models of the FMLs were created using the commercial software package Abaqus/Explicit, where the constitutive relationships and damage in the composite material were described through a user-defined subroutine. The composite was modelled as an orthotropically elastic material prior to damage initiation and the growth of subsequent damage was based on an instant failure rate-dependent model. The simulated deformation and failure modes in the FMLs were found to be in good agreement with published experimental data. For FMLs based on thin GFPP layers, a number of dynamic failure scenarios were captured, such as petalling, large tensile tearing and multiple debonding between the aluminium and GFPP layers. A high degree of correlation between simulated failure on the back face aluminium and the underlying GFPP damage modes was revealed. Finally, the transient behaviour of FML panels during blast loading was studied and discussed.

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More information

e-pub ahead of print date: 22 May 2014
Published date: 1 September 2014
Keywords: Blast, Debonding, Fibre metal laminates, Finite element, Perforation failure, Petalling

Identifiers

Local EPrints ID: 497634
URI: http://eprints.soton.ac.uk/id/eprint/497634
DOI: doi:10.1016/j.ijsolstr.2014.05.010
ISSN: 0020-7683
PURE UUID: 967c471f-844a-4e03-b708-f0db9bdcd95c
ORCID for E. Sitnikova: ORCID iD orcid.org/0000-0001-6869-6751

Catalogue record

Date deposited: 28 Jan 2025 18:00
Last modified: 31 Jan 2025 03:15

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Contributors

Author: E. Sitnikova ORCID iD
Author: Zhongwei Guan
Author: G. K. Schleyer
Author: W. J. Cantwell

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