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Applied Composite Materials
Erschienen in: Applied Composite Materials 4/2013

01.08.2013

A Study on Skin Delaminations Growth in Stiffened Composite Panels by a Novel Numerical Approach

verfasst von: A. Riccio, A. Raimondo, F. Scaramuzzino

Erschienen in: Applied Composite Materials | Ausgabe 4/2013

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Abstract

In this paper, a study on skin delamination growth in stiffened composite panels made of carbon fibres reinforced polymers and subjected to compressive load is presented. A robust (mesh and time step independent) numerical finite elements procedure, based on the Virtual Crack Closure Technique (VCCT) and on the fail release approach, is used here to investigate the influence of skin delamination size and position on the damage tolerance of stiffened composite panels. Four stiffened panels configurations with skin delaminations differently sized and positioned are introduced. Bay delaminations and delaminations under the stringer foot are considered. The novel numerical procedure has been used to simulate the delamination growth for all the investigated panel configurations and to evaluate the influence of the delaminations’ geometrical parameters on the growth development. As a confirmation of the applicability and effectiveness of the adopted numerical tool, the numerical results, obtained for all the analysed configurations, in terms of grown delaminated area, displacements and strains measured in various panel locations, have been compared with experimental data available in literature.
Vorheriger Artikel Optimization of the Thermosetting Pultrusion Process by Using Hybrid and Mixed Integer Genetic Algorithms
Nächster Artikel Acoustic Emission as a Tool for Damage Identification and Characterization in Glass Reinforced Cross Ply Laminates

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Literatur
1.
Ashizawa, M.: Fast Interlaminar fracture of a compressively loaded composite containing a defect. Proceedings of the Fifth DOD/NASA Conference on fibrous composites in structural design. NASA Am. Res. Cent. 1–269 (1981)
2.
Ramkumar, R.L.: Performance of a quantitative study of instability-related delamination growth. NASA CR-166046. (1983)
3.
Byers, B.A.: Behaviour of damaged graphite/epoxy laminates under compression loading. NASA CR-159293. (1980)
4.
Chai, H., Knauss, W.G., Babcock, C.D.: Observation of damage growth in compressively loaded laminates. J. Exper. Mecha. 23(3), 329–337 (1983)CrossRef
5.
Whitcomb, J.D.: Approximate analysis of postbuckled through-the-width delaminations. Compos. Technol. Rev. 4(3), 71–77 (1982)CrossRef
6.
Chai, H., Babcok, C.D., Knauss, W.G.: One delamination modelling of failure in laminated plates by delamination buckling. Int. J. Solids Struct. 17(1), 1069–1083 (1981)CrossRef
7.
Kim, H.J. and Hong, C.S.: Buckling and Postbuckling Behaviour of Composite Laminates with an Embedded Delamination. Procedings of ICCM-10. Whistler, B.C., Canada (1995)
8.
Whitcomb, J.D.: Analysis of a laminate with a postbuckled embedded delamination, including contact effects. Int. J. Compos. Mate. 26(10), 1523–1535 (1992)CrossRef
9.
Riccio, A., Perugini, P., Scaramuzzino, F.: Modelling compression behaviour of delaminated composite panels. Comput. Struct. 78, 73–81 (2000)CrossRef
10.
Gaudenzi, P., Perugini, P., Riccio, A.: Post-buckling behaviour of composite panels in the presence of unstable delaminations. Compos. Struct. 51(3), 301–309 (2001)CrossRef
11.
Riccio, A., Perugini, P., Scaramuzzino, F.: Embedded delamination growth in composite panels under compressive load. Compos. B Eng. 32(3), 209–218 (2001)CrossRef
12.
Riccio, A., Pietropaoli, E.: Modelling damage propagation in composite plates with embedded delamination under compressive load. J. Compos. Mater. 42, 1309–1335 (2008)CrossRef
13.
De Borst, R., Remmers, J.J.C.: Computational modelling of delamination. Compos. Sci. Technol. 66, 713–722 (2006)CrossRef
14.
Riccio, A., Scaramuzzino, F., Perugini, P.: Influence of contact phenomena on embedded delamination growth in composites. AIAA J. 41(5), 933–940 (2003)CrossRef
15.
Greenhalgh, E., Singh, S., Nilsson, K.-F.: Mechanisms and modeling of delamination growth and failure of carbon-fiber reinforced skin-stringer panels. ASTM Spec. Techn. Public 1383, 49–71 (2000)
16.
Suemasu, H., Kurihara, K., Arai, K., Majima, O., Ishikawa, T.: Compressive property degradation of composite stiffened panel due to debonding and delaminations. Advanc. Compo. Mate. Offic. J. Jpn. Soc. Compo. Mate. 15(2), 139–151 (2006)
17.
Faggiani, A., Falzon, B.G.: Optimization strategy for minimizing damage in postbuckling stiffened panels. AIAA J. 45(10), 2520–2528 (2007)CrossRef
18.
Pietropaoli, E., Riccio, A.: On the robustness of finite element procedures based on virtual crack closure technique and fail release approach for delamination growth phenomena. Definition and assessment of a novel methodology. Compos. Sci. Technol. 70, 1288–13003 (2010)CrossRef
19.
Pietropaoli, Elisa, Riccio, Aniello: Formulation and assessment of an enhanced finite element procedure for the analysis of delamination growth phenomena in composite structures. Compos. Sci. Technol. 71, 836–846 (2011)CrossRef
20.
ANSYS MANUAL (revision 5) Volume III: Elements DN-R300:50-3
21.
Ye, Lin: Evaluation of mode-I inter-laminar fracture toughness for fiber-reinforced composite materials. Compos. Sci. Technol. 43, 49–54 (1992)CrossRef
22.
Wang, Y., Williams, J.G.: Corrections for mode II fracture toughness specimens of composites materials. Compos. Sci. Technol. 43, 251–256 (1992)CrossRef
23.
Suemasu, Hiroshi: An experimental method to measure the mode-III inter-laminar fracture toughness of composite laminates. Compos. Sci. Technol. 59, 1015–1021 (1999)CrossRef
24.
Krueger, R.: The virtual crack closure technique: history, approach and applications. ICASE Report No. (2002–10)
25.
De Xie, M., Biggers Sherrill, B.: Strain energy release rate calculation for a moving delamination front of arbitrary shape based on the virtual crack closure technique. Part I: formulation and validation. Eng. Fract. Mech. 73, 771–785 (2006)CrossRef
26.
De Xie, M., Biggers Sherrill, B.: Strain energy release rate calculation for a moving delamination front of arbitrary shape based on the virtual crack closure technique. Part II: sensitivity study on modeling details. Eng. Fract. Mech. 73, 786–801 (2006)CrossRef
27.
Shivakumar, K.N., Tan, P.W., Newman Jr., J.C.: A virtual crack closure technique for calculating stress intensity factors for cracked three dimensional bodies. Int. J. Fract. 36, 43–50 (1988)
Metadaten
Titel
A Study on Skin Delaminations Growth in Stiffened Composite Panels by a Novel Numerical Approach
verfasst von
A. Riccio
A. Raimondo
F. Scaramuzzino
Publikationsdatum
01.08.2013
Verlag
Springer Netherlands
Erschienen in
Applied Composite Materials / Ausgabe 4/2013
Print ISSN: 0929-189X
Elektronische ISSN: 1573-4897
DOI
https://doi.org/10.1007/s10443-012-9282-7

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