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Applied Composite Materials

Erschienen in:

01.06.2016

A Progressive Damage Model for unidirectional Fibre Reinforced Composites with Application to Impact and Penetration Simulation

verfasst von: M. Kerschbaum, C. Hopmann

Erschienen in: Applied Composite Materials | Ausgabe 3/2016

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Abstract

The computationally efficient simulation of the progressive damage behaviour of continuous fibre reinforced plastics is still a challenging task with currently available computer aided engineering methods. This paper presents an original approach for an energy based continuum damage model which accounts for stress-/strain nonlinearities, transverse and shear stress interaction phenomena, quasi-plastic shear strain components, strain rate effects, regularised damage evolution and consideration of load reversal effects. The physically based modelling approach enables experimental determination of all parameters on ply level to avoid expensive inverse analysis procedures. The modelling strategy, implementation and verification of this model using commercially available explicit finite element software are detailed. The model is then applied to simulate the impact and penetration of carbon fibre reinforced cross-ply specimens with variation of the impact speed. The simulation results show that the presented approach enables a good representation of the force-/displacement curves and especially well agreement with the experimentally observed fracture patterns. In addition, the mesh dependency of the results were assessed for one impact case showing only very little change of the simulation results which emphasises the general applicability of the presented method.

Vorheriger Artikel Simulation of Mechanical Behaviors of Ceramic Composites Under Stress-Oxidation Environment While Considering the Effect of Matrix Cracks

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Titel: A Progressive Damage Model for unidirectional Fibre Reinforced Composites with Application to Impact and Penetration Simulation
verfasst von: M. Kerschbaum
C. Hopmann
Publikationsdatum: 01.06.2016
Verlag: Springer Netherlands
Erschienen in: Applied Composite Materials / Ausgabe 3/2016
Print ISSN: 0929-189X
Elektronische ISSN: 1573-4897
DOI: https://doi.org/10.1007/s10443-015-9470-3

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