Effects of interfacial shear strength on the operative aspects of interphase section and tensile strength of carbon-nanotube-filled system: A modeling study

•The essential interfacial shear strength (τc) defines the operative interphase thickness.•“τc”, “τ” and interphase thickness are used to suggest a model for nanocomposite’s strength.•Many experimental data for various samples confirm the calculations of the advanced model.•Poor “τc” and high “τ” po...

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Bibliographic Details
Published in:Results in physics 2021-07, Vol.26, p.104428, Article 104428
Main Authors: Zare, Yasser, Yop Rhee, Kyong
Format: Article
Language:English
Subjects:
Carbon nanotubes (CNTs)
Interphase section
Nanocomposites
Requisite interfacial shear strength
Tensile strength
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Summary:•The essential interfacial shear strength (τc) defines the operative interphase thickness.•“τc”, “τ” and interphase thickness are used to suggest a model for nanocomposite’s strength.•Many experimental data for various samples confirm the calculations of the advanced model.•Poor “τc” and high “τ” positively control the operative terms and nanocomposite’s strength.•CNT size plays the most important role in the strength of nanocomposites. In this article, the required interfacial shear strength (τc) between a polymer medium and carbon nanotubes (CNTs) is determined to define the operative interphase thickness in nanocomposites. The roles of the operative interphase thickness in the operative CNT loading and percolation onset are determined. Additionally, “τc,” interfacial shear strength (τ), operative filler concentration, CNT curliness, interphase thickness, and percolation onset are used to develop a model for determining the strength of CNT-filled systems. The equations and the suggested model adequately reflect the roles of the parameters in the model’s outputs. In addition, many real values for several examples validate the proposed model. A low “τc” and high “τ” positively control the operative interphase thickness, operative CNT concentration, and percolation onset, thus improving the nanocomposite’s strength. Among the variables considered herein, CNT size is the most important term because it changes the relative strength (nanocomposite’s strength divided by polymer strength) from 1 to 25.
ISSN:2211-3797
2211-3797
DOI:10.1016/j.rinp.2021.104428