Adhesive and viscoelastic response of MWCNT/ZrO2 hybrid epoxy nanocomposites

Rathi, Ankit; Kundalwal, Shailesh; Singh, Shankar; Kumar, Arun

doi:10.2140/jomms.2021.16.281

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Adhesive and viscoelastic response of MWCNT/ZrO$_2$ hybrid epoxy nanocomposites

Ankit Rathi, Shailesh I. Kundalwal, Shankar Singh and Arun Kumar

Vol. 16 (2021), No. 3, 281–292

DOI: 10.2140/jomms.2021.16.281

Abstract

Hybrid nanofillers consisting of MWCNT (multiwalled carbon nanotubes) functionalized by ZrO $_{2}$ nanoparticles have been infused in an epoxy matrix to fabricate MWCNT/ZrO $_{2}$ hybrid epoxy nanocomposites (MNC) using an ultrasonication mixing technique.

The structural morphology of the hybrid nanofillers and their dispersion in the epoxy matrix, were studied using transmission electron microscopy and field emission scanning electron microscopy, respectively. The surface chemical composition of the MWCNT, ZrO $_{2}$ nanoparticles and hybrid nanofillers were studied using infrared spectroscopy and the elemental composition of the hybrid nanofillers was determined using EDX analysis.

The lap joints of copper substrates were prepared by applying neat epoxy and MNC adhesives to carry out the lap shear strength test. It was found that hybrid nanofiller reinforcement of the epoxy matrix led to outstanding mechanical and viscoelastic properties of MNC with respect to neat epoxy. For example, the addition of 1.0 wt.% of hybrid nanofillers in the epoxy matrix increased the tensile strength and toughness of MNC by 19% and 43.5%, respectively, compared to neat epoxy. The storage modulus and lap shear strength of MNC with 1.0 wt.% of hybrid nanofillers improved by 16% and 23%, respectively.

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Keywords

multiwalled carbon nanotubes, epoxy resin, hybrid nanofillers, nanocomposites, adhesive and viscoelastic properties, mechanical properties

Milestones

Received: 20 April 2020

Revised: 21 October 2020

Accepted: 1 December 2020

Published: 25 July 2021

Authors

Ankit Rathi
Discipline of Mechanical Engineering Indian Institute of Technology (IIT) Indore Khandwa Road Indore 453552 India

Shailesh I. Kundalwal
Discipline of Mechanical Engineering Indian Institute of Technology (IIT) Indore Khandwa Road Indore 453552 India

Shankar Singh
Department of Mechanical Engineering Sant Longowal Institute of Engineering & Technology Longowal Sangrur Sangrur 148106 India

Arun Kumar
Department of Metallurgical & Materials Engineering Indian Institute of Technology Roorkee Roorkee Roorkee 247667 India

Vol. 16, No. 3, 2021