Litcius/Paper detail

Parameter studies and evaluation principles of delamination damage in laminated composites

Kangkang Wang, Libin Zhao, Haiming Hong, Jianyu Zhang, Yu Gong

2021Chinese Journal of Aeronautics20 citationsDOIOpen Access PDF

Abstract

Delamination represents one of the most severe failure modes in composite laminates, especially when they are subjected to uniaxial compression loads. The evaluation of the delamination damage has always been an essential issue of composite laminates for durability and damage tolerance in engineering practice. Focusing on the most typical and representative elliptical delamination issue, an analytical model simultaneously considering the conservative buckling process and non-conservative delamination propagation process is implemented. Various computational cases considering different delamination depths, directions, aspect ratios, and areas are established, and the predicted results based on the analytical model are carefully compared. Effects of these geometrical delamination parameters on the buckling, delamination propagation, and failure behaviors of composite laminates are thoroughly analyzed, and innovative evaluation principles of the delamination damage have been concluded. It is found that the delamination area is the key factor that truly affecting the failure behaviors of delaminated composites, and the local / global buckling and failure loads show clear linearity with the delamination area, whilst the delamination depth and direction only have slight effects.

Topics & Concepts

Delamination (geology)Materials scienceComposite laminatesFiber pull-outBucklingComposite numberComposite materialStructural engineeringCompression (physics)DurabilityEngineeringGeologySubductionPaleontologyTectonicsMechanical Behavior of CompositesComposite Structure Analysis and OptimizationStructural Analysis of Composite Materials