Influence of post-buckling behaviour of composite stiffened panels on the damage criticality
2004; Elsevier BV; Volume: 66; Issue: 1-4 Linguagem: Inglês
10.1016/j.compstruct.2004.04.038
ISSN1879-1085
AutoresJeff W.H. Yap, Rodney S. Thomson, Murray L. Scott, Dieter Hachenberg,
Tópico(s)Corrosion Behavior and Inhibition
ResumoIn stiffened panels with defects, such as skin delaminations or stringer debonding, buckling may occur prior to the designed critical buckling load. Depending on the damage parameters, such defects may also affect the post-buckling behaviour and consequently the structural performance. An automated finite element (FE) modelling tool has been developed to predict the post-buckling behaviour of panels. It was coupled with a linear elastic fracture mechanics approach to determine damage criticality, based on the “no-growth” principle. The structural behaviour in the post-buckling range and its interaction with the damage parameters were analysed. Local buckling occurred as a result of localised stiffness reduction in the damage region. Global buckling occurred when sufficient in-plane strain was reached. The onset of local buckling was an important factor on stringer debonding criticality as the local buckling mode had an effect on the corresponding global buckling. In comparison, the onset of local buckling for the skin delamination was lower due to the thin sub-laminate separation. However, it was less influential on the damage criticality because the local buckling slowly dissipated in the far post-buckling range. It was found that the initiation of local buckling, and the interaction between the local and global buckling mode, would determine the damage criticality.
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