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Multi-scale modelling and life prediction of aged composite materials in salt water

Pouyan Ghabezi, Noel M. Harrison

2023Journal of Reinforced Plastics and Composites25 citationsDOIOpen Access PDF

Abstract

Tidal turbine infrastructure is currently in the large-scale prototype and short-term demonstration phase. However, the immediate requirement is to develop materials, processes and long-term life predictive facilities for tidal turbine plant that has decades of operational lifetime requirements. Computational modelling is a key tool to interpret the experimental data, understand the relevant mechanisms and provide a predictive capability for the performance of aged components for industries. The goal of this paper is a prediction of the long-term life of marine-based glass/epoxy and carbon/epoxy composite laminates aged in artificial seawater with 3.5% salinity based on Arrhenius degradation theory and tensile strength retention over 180 days ageing at room temperature and 60°C. Three different analytical models (linear and exponential) were implemented to calculate time shift factors and corresponding life in a real marine environment. Additionally, multi-scale modelling has been implemented via a representative volume element approach for square and hexagonal cells, and two-step homogenization of textile composites in accordance with nanoindentation testing for matrix/resin cells and fibre constraint cells after 90 days of immersion in saltwater. In general, the multi-scale modelling in ABAQUS and TexGen4SC was able to approximate (with about 10% difference) the mechanical properties of dry and aged composite laminates.

Topics & Concepts

Materials scienceEpoxyComposite numberComposite materialHomogenization (climate)Ultimate tensile strengthRepresentative elementary volumeSeawaterStructural engineeringEngineeringMicrostructureBiologyEcologyGeologyOceanographyBiodiversityMechanical Behavior of CompositesComposite Material MechanicsFiber-reinforced polymer composites
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