Bandgap formation and tuning in gyroid lattice structures: Simulations and experiments

Bandgap formation and tuning in gyroid lattice structures: Simulations and experiments

This study provides a comprehensive investigation of the mechanical bandgap characteristics of gyroid lattice structures. Two methods are used to predict the bandgaps. The first examines wave dispersion in a single unit cell to identify bandgaps through dispersion curves. The second employs harmonic...

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Bibliographic Details
Main Authors: Mohammad Shaaban, Sami El-Borgi, Aravind Krishnamoorthy
Format: Article
Language:English
Published: Elsevier 2025-05-01
Series:Materials & Design
Subjects:
Gyroid lattice
Triple periodic minimal surfaces (TPMS)
Mechanical bandgaps
Phononic materials
Additive manufacturing
Online Access:http://www.sciencedirect.com/science/article/pii/S0264127525003168
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Summary:This study provides a comprehensive investigation of the mechanical bandgap characteristics of gyroid lattice structures. Two methods are used to predict the bandgaps. The first examines wave dispersion in a single unit cell to identify bandgaps through dispersion curves. The second employs harmonic analysis on a finite structure to calculate its steady-state response and plot the frequency response function (FRF). To validate the numerical predictions, PLA matrix and network gyroids samples are manufactured using Fused Deposition Modeling (FDM) and tested for vibration attenuation. The network gyroid demonstrated superior bandgap performance compared to the matrix gyroid, with the broadest bandgap spanning between 6.61 kHz and 7.74 kHz. Parametric studies revealed that the wall thickness, unit cell size, and material properties significantly influence the location and bandwidth of bandgaps, enabling their precise tuning. These findings highlight the potential of the network gyroid structures for vibration-sensitive engineering applications.
ISSN:0264-1275

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