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Applied Composite Materials

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21-12-2016

The Use of Sprint Interface Element Delamination Simulation of Sandwich Composite Beam

Authors: Geng Xu, Renjun Yan

Published in: Applied Composite Materials | Issue 5/2017

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Abstract

Sandwich composite beams have been more and more used in various industries because of their excellent mechanical properties. However, the mismatched performance between face sheet and foam core always lead to such as cracks and damages in the core or face/core interface during the processes of manufacturing or service. Delamination damage at the adhesive interface is the most dangerous and could be one main source that the mechanical capability of the structure is serous degenerated. In this paper, a simple and natural model to evaluate the stiffness of the spring interface elements, which is based on the physics and the geometry of the adhesive layers, is proposed. In order to validate the model, cantilever beam bending test were conducted for marine sandwich composite I-beam. A good comparison has been found between predictions and experimental results, and results indicate that the spring interface element can provide an efficient model for the delamination simulation of sandwich composite structures.

previous article A Progressive Damage Model for Predicting Permanent Indentation and Impact Damage in Composite Laminates

next article Synergistic Effects of Frequency and Temperature on Damage Evolution and Life Prediction of Cross-Ply Ceramic Matrix Composites under Tension-Tension Fatigue Loading

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Lloyd’s Register. Provisional Rules for the Application of Sandwich Panel Construction to Ship Structure, April 2006

Di Bella, G., Calabrese, L., Borsellino, C.: Mechanical characterization of a glass/polyester sandwich structure for marine applications. Mater. Des. 42(1), 486–494 (2012)CrossRef

Ashby, M.F., Evans, A.G., Fleck, N.A., Gibson, L.J., Hutchinsion, J.W., et al.: Metal foam: a design guide. Butterworth- Heinemann, Oxford UK (2000)

Daniel, I.M., Gdouros, E.E., Wang, K.A., Abot, J.L.: Failure modes of composite sandwich beams. Springer Netherlands. 35(1), 197–227 (2002)

Triantafillou, T.C., Gibson, L.J.: Failure mode maps for foam Core sandwich beams. Mater. Sci. Eng. 95, 37–53 (1987)CrossRef

Chang, T.P., Hu, C.Y., Jane, K.C.: Vibration of delaminated composite plates under axial load. Mech. Struct. Mach. 26(2), 195–218 (1998)CrossRef

Lestari W, Hanagud S. Health monitoring of structures: multiple delamination dynamics in composite beams. In: Proceedings of the 40th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference and Adaptive Structures Forum, St. Louis, MO, 1999.

Lu X, Hanagud S. Health monitoring of structures: multiple delamination dynamics in composite beams with axial loads. In: Proceedings of the 40th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, St. Louis, MO, April 12–15, 1999. p. 2348–2357.

Cheng, Z.Q., He, L.H., Kitipornchai, S.: Influence of imperfect interfaces on bending and vibration of laminated composite shells. Int. J. Solids Struct. 37, 2127–2150 (2000)CrossRef

10.

Ashby, M.F., Evans, A.G., Fleck, N.A., Gibson, L.J., Hutchinsion, J.W., et al.: Metal foams: a design guide. Butterworth-Heinemann, Oxford, UK (2000)

11.

McCormack, T.M., Miller, R., Kesler, O., Gibson, L.J.: Failure of sandwich beams with metallic foam cores. Int. J. Solids Struct. 38, 4901–4920 (2001)CrossRef

12.

Librescu, L., Schmidt, R.: A general linear theory of laminated composite shells featuring interlaminar bonding imperfections. Int. J. Solids Struct. 38, 3355–3375 (2001)CrossRef

13.

Soldatos, K.P., Shu, X.: Modelling of perfectly and weakly bonded laminated plates and shallow shells. Compos. Sci. Technol. 61, 247–260 (2001)CrossRef

14.

Shu, X.: A generalised model of laminated composite plates with interfacial damage. Compos. Struct. 74, 237–246 (2006)CrossRef

15.

Della, C.N., Shu, D.: Vibration of beams with double delaminations. [J] Sound Vibr. 282(3–5), 919–935 (2005)CrossRef

16.

Gherlone, M., Di Sciuva, M.: Thermo-mechanics of undamaged and damaged multilayered composite plates: a sub-laminates finite element approach. Compos. Struct. 81, 125–136 (2007)CrossRef

17.

Daniel, I.M.: Influence of core properties on the failure of composite sandwich beams. J. Mech. Mater. Struct. 4(7–8), 1271–1286 (2009)CrossRef

18.

Wu, Y., Lai, Y., Zhang, Z., Zhu, Y.: A finite beam element for analyzing shear lag and shear deformation effects in composite-laminated box girders. Comput. Struct. 82, 763–771 (2004)CrossRef

19.

Lee, J.: Flexural analysis of thin-walled composite beams using shear-deformable beam theory. [J] Compos. Struct. 70, 212–222 (2005)CrossRef

20.

Back, S.Y., Will, K.M.: Shear-flexible thin-walled element for composite I-beams. Eng. Struct. 30, 1447–1458 (2005)CrossRef

21.

Sheikh, A.H., Thomsen, O.T.: An efficient beam element for the analysis of laminated composite beams of thin-walled open and closed cross sections. Compos. Sci. Technol. 68, 2273–2281 (2008)CrossRef

22.

Feo, L., Mancusi, G.: Modeling shear deformability of thin-walled composite beams with open cross-section. Mech. Res. Commun. 37, 320–325 (2010)CrossRef

23.

Cardoso, J.B., Valido, A.J.: Cross-section optimal design of composite laminated thin-walled beams. Comput. Struct. 89, 1069–1076 (2011)CrossRef

24.

Zou, Z., Reid, S.R., Li, S.: A continuum damage model for delaminations in laminated composites. Journal of the Mechanics and Physics of Solids. 51, 333–356 (2003)CrossRef

Title: The Use of Sprint Interface Element Delamination Simulation of Sandwich Composite Beam
Authors: Geng Xu
Renjun Yan
Publication date: 21-12-2016
Publisher: Springer Netherlands
Published in: Applied Composite Materials / Issue 5/2017
Print ISSN: 0929-189X
Electronic ISSN: 1573-4897
DOI: https://doi.org/10.1007/s10443-016-9574-4

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