Interfacial Crack Arrest in Sandwich Beams Subjected to Fatigue Loading using a Novel Crack Arresting Device – Numerical modelling

Georgios Martakos, Jens Henrik Andreasen, C. Berggreen, Ole Thybo Thomsen

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningpeer review

2 Citationer (Scopus)
52 Downloads (Pure)

Abstrakt

A novel crack arresting device is implemented in foam-cored composite sandwich beams and tested using the Sandwich Tear Test (STT) configuration. A finite element model of the setup is developed, and the predictions are correlated with observations and results from a recently conducted experimental fatigue test study. Based on a linear elastic fracture mechanics approach, the developed FE model is utilised to simulate crack propagation and arrest in foam-cored sandwich beam specimens subjected to fatigue loading conditions. The effect of the crack arresters on the fatigue life is analysed, and the predictive results are subsequently compared with the observations from the previously conducted fatigue tests. The FE model predicts the energy release rate and the mode mixity based on the derived crack surface displacements, utilising algorithms for the prediction of accelerated fatigue crack growth as well as the strain field evolution in the vicinity of the crack tip on the surface of the sandwich specimens. It is further shown that the developed finite element analysis methodology can be used to gain a deeper insight onto the physics and behavioural characteristics of the novel peel stopper concept, as well as a design tool that can be used for the implementation of crack arresting devises in engineering applications of sandwich components and structures.

OriginalsprogEngelsk
TidsskriftJournal of Sandwich Structures & Materials
Vol/bind21
Udgave nummer2
Sider (fra-til)422-438
Antal sider17
ISSN1099-6362
DOI
StatusUdgivet - 1 feb. 2019

Bibliografisk note

NB accepted for publication

Emneord

  • Sandwich structures
  • Finite Element Analysis
  • Composites
  • Fract ure Mechanics
  • Fatigue

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