Litcius/Paper detail

FFT phase-field model combined with cohesive composite voxels for fracture of composite materials with interfaces

Yang Chen, Lionel Gélébart, Aldo Marano, T.J. Marrow

2021Computational Mechanics24 citationsDOIOpen Access PDF

Abstract

Abstract A framework for damage modelling based on the fast Fourier transform (FFT) method is proposed to combine the variational phase-field approach with a cohesive zone model. This combination enables the application of the FFT methodology in composite materials with interfaces. The composite voxel technique with a laminate model is adopted for this purpose. A frictional cohesive zone model is incorporated to describe the fracture behaviour of the interface including frictional sliding. Representative numerical examples demonstrate that the proposed model is able to predict complex fracture behaviour in composite microstructures, such as debonding, frictional sliding of interfaces, crack deviation and coalescence of interface cracking and matrix cracking.

Topics & Concepts

Fast Fourier transformComposite numberCoalescence (physics)Materials scienceCrackingFracture (geology)Composite materialCohesive zone modelPhase (matter)Interface (matter)Structural engineeringComputer scienceAlgorithmEngineeringPhysicsContact angleAstrobiologyQuantum mechanicsSessile drop techniqueNumerical methods in engineeringComposite Material MechanicsHigh-Velocity Impact and Material Behavior
FFT phase-field model combined with cohesive composite voxels for fracture of composite materials with interfaces | Litcius