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Numerical Analysis of Damage in Composites: From Intra-Layer to Delamination and Data-Assisted Methods

Alireza Taherzadeh‐Fard, Alejandro Cornejo, S. Jiménez, Lucía Gratiela Barbu

2025Mathematics14 citationsDOIOpen Access PDF

Abstract

The simulation of damage in composite materials is an important research area that impacts different engineering applications from aerospace structures to renewable energy systems. This review provides a comprehensive analysis of current damage modeling approaches, including intra-layer and inter-layer failures. Various numerical strategies, such as continuum damage mechanics (CDM), cohesive zone models (CZM), extended finite element methods (XFEM), phase-field models (PFM), and peridynamics (PD), are examined to assess their efficiency in predicting crack initiation, propagation, and interaction. Additionally, the role of data-assisted (driven) techniques, such as machine learning, in enhancing predictive capabilities is explored. This review highlights the strengths and limitations of each approach, underscoring the need for further advancements in computational efficiency, multiscale modeling, and integration with experimental data. The findings serve as a foundation for future research into optimizing damage prediction techniques to improve the reliability and durability of composite structures.

Topics & Concepts

Delamination (geology)Composite materialMaterials scienceLayer (electronics)GeologySubductionTectonicsPaleontologyMechanical Behavior of CompositesNumerical methods in engineeringComposite Material Mechanics