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Fatigue crack growth in CNT-reinforced polymer composite

Kishan Dwivedi, Gaurav Arora, Himanshu Pathak

2022Journal of Micromechanics and Molecular Physics17 citationsDOI

Abstract

Carbon nanotubes (CNT)-reinforced polymer composite has many engineering applications due to attractive properties, like high strength to weight ratio. These materials are subjected to cyclic fatigue loading during their service life. This work proposed a dual scale modeling approach to predict fatigue crack growth behavior of CNT-reinforced polymer composite under the thermo-mechanical loading environment. The effective orthotropic property of CNT-reinforced polymer composite is estimated using the mean-field homogenization technique in meso-scale modeling. Further, the equivalent composite property is used for macro-scale fatigue crack growth study using higher-order extended finite element method. To present the efficiency of the proposed modeling approach, various combinations of polymer composite (by volume fraction of reinforcement at 7.5%, 10%, 12.5%, 15%, 17.5%, and 20%) are taken for analysis. At macro-scale modeling, XFEM with higher-order enrichment terms is employed to improve the solution accuracy at the crack tip region. The proposed computational approach has been employed with the in-house developed MATLAB code and DIGIMAT software. Several numerical examples are considered with geometrical discontinuities like multiple holes and cracks.

Topics & Concepts

Materials scienceComposite materialComposite numberParis' lawCarbon fiber reinforced polymerHomogenization (climate)Finite element methodOrthotropic materialStructural engineeringClassification of discontinuitiesCarbon nanotubeRepresentative elementary volumeFracture mechanicsCrack closureEngineeringMicrostructureMathematicsBiologyEcologyBiodiversityMathematical analysisComposite Material MechanicsNumerical methods in engineeringMechanical Behavior of Composites
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