Dynamic interaction effects of multiple delaminations in plates subject to cylindrical bending

The interaction of multiple delaminations in a laminated composite plate loaded dynamically under plane strain conditions (cylindrical bending) is studied by a simple but accurate model that represents the delaminated plate as a set of Timoshenko beams joined by cohesive interfaces. Behavioral maps...

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Published inInternational journal of solids and structures Vol. 46; no. 9; pp. 1815 - 1833
Main Authors Andrews, Martin G., Massabò, Roberta, Cavicchi, Andrea, Cox, Brian N.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2009
Subjects
Crack interaction
Dynamic fracture
Impact and blast
Laminated and multilayered structures
Multiple delamination
Through-thickness reinforcement
Impact and blast
Through-thickness reinforcement
Crack interaction
Dynamic fracture
Laminated and multilayered structures
Multiple delamination
Online AccessGet full text
ISSN0020-7683
1879-2146
DOI10.1016/j.ijsolstr.2008.11.027

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Abstract The interaction of multiple delaminations in a laminated composite plate loaded dynamically under plane strain conditions (cylindrical bending) is studied by a simple but accurate model that represents the delaminated plate as a set of Timoshenko beams joined by cohesive interfaces. Behavioral maps are derived, which distinguish conditions under which multiple delaminations tend to propagate with equal lengths from those under which one of them tends to grow as a dominant crack with relatively high velocity. In homogeneous systems, equal length growth is favored when the delaminations are equally spaced through the thickness. While the behavioral maps are similar to those for static loading conditions, significant dynamic effects arise in the details of propagation: the maximum energy release rate depends strongly on the loading rate, duration and profile; dynamic effects and crack-interaction effects are generally coupled; and strong hammering effects (chaotic collisions of sub-laminates) can occur during the free wave motions that arise after the load is removed. The hammering effect can be suppressed by imposing a large-scale bridging mechanism (bridging extending far in the crack wake, as from pins or stitches), whereupon energy release rates tend to show smooth oscillations associated with waves propagating on the scale of the whole specimen. The energy absorbed during failure will depend significantly on whether conditions favor multiple delaminations propagating with equal lengths or a single delamination growing dominantly.
AbstractList The interaction of multiple delaminations in a laminated composite plate loaded dynamically under plane strain conditions (cylindrical bending) is studied by a simple but accurate model that represents the delaminated plate as a set of Timoshenko beams joined by cohesive interfaces. Behavioral maps are derived, which distinguish conditions under which multiple delaminations tend to propagate with equal lengths from those under which one of them tends to grow as a dominant crack with relatively high velocity. In homogeneous systems, equal length growth is favored when the delaminations are equally spaced through the thickness. While the behavioral maps are similar to those for static loading conditions, significant dynamic effects arise in the details of propagation: the maximum energy release rate depends strongly on the loading rate, duration and profile; dynamic effects and crack-interaction effects are generally coupled; and strong hammering effects (chaotic collisions of sub-laminates) can occur during the free wave motions that arise after the load is removed. The hammering effect can be suppressed by imposing a large-scale bridging mechanism (bridging extending far in the crack wake, as from pins or stitches), whereupon energy release rates tend to show smooth oscillations associated with waves propagating on the scale of the whole specimen. The energy absorbed during failure will depend significantly on whether conditions favor multiple delaminations propagating with equal lengths or a single delamination growing dominantly.
Author Massabò, Roberta
Cavicchi, Andrea
Andrews, Martin G.
Cox, Brian N.
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  givenname: Brian N.
  surname: Cox
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Issue 9
Keywords Impact and blast
Through-thickness reinforcement
Crack interaction
Dynamic fracture
Laminated and multilayered structures
Multiple delamination
Language English
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Snippet The interaction of multiple delaminations in a laminated composite plate loaded dynamically under plane strain conditions (cylindrical bending) is studied by a...
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SubjectTerms Crack interaction
Dynamic fracture
Impact and blast
Laminated and multilayered structures
Multiple delamination
Through-thickness reinforcement
Title Dynamic interaction effects of multiple delaminations in plates subject to cylindrical bending
URI https://dx.doi.org/10.1016/j.ijsolstr.2008.11.027
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Volume 46
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