Meso–macro-scale computational analysis of boron nitride nanotube-reinforced aluminium and epoxy nanocomposites: A case study on crack propagation

Medientyp: E-Artikel
Titel: Meso–macro-scale computational analysis of boron nitride nanotube-reinforced aluminium and epoxy nanocomposites: A case study on crack propagation
Beteiligte: Padmanabhan, Srikant; Gupta, Ankit; Arora, Gaurav; Pathak, Himanshu; Burela, Ramesh G; Bhatnagar, Anant S
Erschienen: SAGE Publications, 2021
Erschienen in: Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications
Sprache: Englisch
DOI: 10.1177/1464420720961426
ISSN: 1464-4207; 2041-3076
Schlagwörter: Mechanical Engineering ; General Materials Science
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Beschreibung: <jats:p> In this paper, an outline of mean-field homogenization and fracture toughness of boron nitride nanotube-reinforced aluminium and epoxy composites have been presented. The meso-scale material modelling has been achieved using Mori-Tanaka and double inclusion homogenization schemes. To examine the effectiveness of Mori-Tanaka and double inclusion schemes, a comparison has been drawn with the rule of mixture. Meso-scale numerical results of boron nitride nanotube-reinforced aluminium and epoxy composites are presented for various design parameters such as aspect ratio and volume fraction of boron nitride nanotubes. The validation studies of the developed transversely isotropic composites model have been documented with the experiments performed and existing literature. Finally, macro-scale fracture toughness simulations incorporating the transversely isotropic properties have been performed using the domain integral method. It is observed that aluminium and epoxy with elastoplastic and viscoelastic nature, respectively, have shown a significant effect on the fracture properties of the composites. </jats:p>

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