Litcius/Paper detail

Synergetic impacts of two rigid nano‐scale inclusions on the mechanical and thermal performance of <scp>POM</scp>/carbon black/<scp>CaCO<sub>3</sub></scp> ternary nanocomposite systems

Rasool Mohsenzadeh, Behzad Hashemi Soudmand, Karim Shelesh‐Nezhad

2022Polymer Composites30 citationsDOI

Abstract

Abstract In the present contribution, the mechanical and thermal characteristics of polyoxymethylene (POM)/carbon black (CB)/CaCO 3 (NCC) ternary nanocomposites were assessed through mechanical tests and morphological observations. Scanning electron microscopy (SEM) micrographs indicated the uniform distribution of nanoparticles in the matrix. Dynamic mechanical thermal analysis (DMTA) revealed a promotion of elastic response and lower energy dissipation in ternary nanocomposites against neat POM and single‐filled POM/CB samples. Tensile strength results showed the increase of tensile modulus and strength by 27% and 8% for the ternary nanocomposite compared to binary POM/CB. Flexural and impact properties were also enhanced with the inclusion of NCC as a second rigid phase. SEM observations of impact‐fractured surfaces at high magnifications revealed full and partial debonding of nanoparticles from the matrix and consequent cavitation in the matrix, which mainly contributed to impact toughening. Hashin‐Shtrikman model was employed to analyze its efficiency to predict Young's modulus of ternary nanocomposite systems.

Topics & Concepts

Materials scienceNanocompositeComposite materialUltimate tensile strengthTernary operationDynamic mechanical analysisIzod impact strength testScanning electron microscopeFlexural strengthFlexural modulusNanoparticleModulusPolymerNanotechnologyComputer scienceProgramming languagePolymer Nanocomposites and PropertiesPolymer crystallization and propertiesNatural Fiber Reinforced Composites
Synergetic impacts of two rigid nano‐scale inclusions on the mechanical and thermal performance of <scp>POM</scp>/carbon black/<scp>CaCO<sub>3</sub></scp> ternary nanocomposite systems | Litcius