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On quantifying dynamic behavior of architected metal/polymer TPMS/lattices-based interpenetrating phase composites

K.B. Shingare, Andreas Schiffer, Kin Liao

2025Scientific Reports11 citationsDOIOpen Access PDF

Abstract

This article presents the numerical analysis of architected metal/polymer-based interpenetrating phase composites (IPCs) to study their effective mechanical properties and dynamic behavior using finite element (FE) simulation. In this, we considered four types of Triply periodic minimal surfaces (TPMS) and lattice architectures, including gyroid, primitive, cubic, and octet, to form architected IPCs. The aluminum alloy is used for the TPMS/lattice reinforcing phase, and epoxy as a reinforced phase. The periodic boundary conditions were applied using FE analysis to compute the effective properties, while these properties were utilized to investigate the dynamic analysis of composite structures considering free vibration, wherein actual and homogenized models are compared. Our results reveal that the effective properties of IPCs increase with respect to the volume fraction of respective architectures in conjunction with enhanced natural frequency and less deformation. Moreover, we conducted a comparative study between these newly architected metal/polymer IPCs and conventional composites.

Topics & Concepts

Composite materialMaterials sciencePolymerPhase (matter)MetalChemistryOrganic chemistryMetallurgyCellular and Composite StructuresInnovations in Concrete and Construction MaterialsStructural Analysis and Optimization