Litcius/Paper detail

Progressive damage behavior of composite L‐stiffened structures with initial delamination defects under uniaxial compression: Experimental and numerical investigations

Chunxing Hu, Yujiao Bai, Zhonghai Xu, Jiezheng Qiu, Rongguo Wang, Xiaodong He

2022Polymer Composites27 citationsDOI

Abstract

Abstract L‐shaped stiffened composite panels inevitably produce delamination defects during manufacturing and service, which seriously affect the load‐bearing performance of the structure. In the present work, a combination of experimental and numerical simulations was used to investigate the effect of initial delamination defects with three different shapes (lossless, elliptical, and circular) in the skin on the axial compression properties of carbon fiber L‐shaped stiffened composite panels. Furthermore, to predict the damage initiation and evolution process of carbon fiber‐reinforced polymer (CFRP) L‐stiffened plates under compression loading, a progressive damage model (PDM) that combines the Hashin failure criterion and the cohesive zone model (CZM) is proposed. Also, a user‐defined field variable (USDFLD) subroutine based on the Hashin failure criteria is developed in Abaqus software to study the initiation and progression of intra‐laminar damages L‐stiffened panels. Damage initiation and evolution process of skin delamination defects are predicted based on CZM. Finally, the finite element simulation results are in good agreement with the experimental measurements, which confirms the reliability of the finite element models (FEMs).

Topics & Concepts

Delamination (geology)Materials scienceFinite element methodComposite materialStructural engineeringComposite numberCompression (physics)Cohesive zone modelFracture (geology)EngineeringPaleontologyTectonicsSubductionBiologyMechanical Behavior of CompositesStructural Analysis of Composite MaterialsComposite Structure Analysis and Optimization
Progressive damage behavior of composite L‐stiffened structures with initial delamination defects under uniaxial compression: Experimental and numerical investigations | Litcius