TY - JOUR
T1 - Mechanical metamaterials as broadband electromagnetic wave absorbers
T2 - investigating relationships between geometrical parameters and electromagnetic response
AU - Lim, Dahyun Daniel
AU - Lee, Sangryun
AU - Lee, Jeong Ho
AU - Choi, Wonjoon
AU - Gu, Grace X.
N1 - Publisher Copyright:
© 2024 The Royal Society of Chemistry.
PY - 2024/3/11
Y1 - 2024/3/11
N2 - The utilization of low-density and robust mechanical metamaterials rises as a promising solution for multifunctional electromagnetic wave absorbers due to their structured porous structures, which facilitates impedance matching and structural absorption. However, the various geometrical parameters involved in constructing these metamaterials affect their electromagnetic response, necessitating a comprehensive understanding of underlying absorbing mechanisms. Through experimentally validated numerical analysis, this study delves into the influence of geometrical factors on the electromagnetic response of representative low-density, high strength mechanical metamaterials, namely octet-truss and octet-foam. By juxtaposing electromagnetic response under varying volume fractions, cell lengths, and multilayer configurations of octet-truss and octet-foam, distinct absorption mechanisms emerge as geometrical parameters evolve. These mechanisms encompass diminished reflection owing to porous structures, effective medium approximations within subwavelength limits, and transmission-driven or reflection-driven phenomena originating from the interplay of open- and closed-cell structures. Through analyses on these mechanical metamaterials, we demonstrate the viability of employing them as tunable yet scalable structures that are lightweight, robust, and broadband electromagnetic wave absorption.
AB - The utilization of low-density and robust mechanical metamaterials rises as a promising solution for multifunctional electromagnetic wave absorbers due to their structured porous structures, which facilitates impedance matching and structural absorption. However, the various geometrical parameters involved in constructing these metamaterials affect their electromagnetic response, necessitating a comprehensive understanding of underlying absorbing mechanisms. Through experimentally validated numerical analysis, this study delves into the influence of geometrical factors on the electromagnetic response of representative low-density, high strength mechanical metamaterials, namely octet-truss and octet-foam. By juxtaposing electromagnetic response under varying volume fractions, cell lengths, and multilayer configurations of octet-truss and octet-foam, distinct absorption mechanisms emerge as geometrical parameters evolve. These mechanisms encompass diminished reflection owing to porous structures, effective medium approximations within subwavelength limits, and transmission-driven or reflection-driven phenomena originating from the interplay of open- and closed-cell structures. Through analyses on these mechanical metamaterials, we demonstrate the viability of employing them as tunable yet scalable structures that are lightweight, robust, and broadband electromagnetic wave absorption.
UR - http://www.scopus.com/inward/record.url?scp=85187655704&partnerID=8YFLogxK
U2 - 10.1039/d3mh01959d
DO - 10.1039/d3mh01959d
M3 - Article
C2 - 38477233
AN - SCOPUS:85187655704
SN - 2051-6347
VL - 11
SP - 2506
EP - 2516
JO - Materials Horizons
JF - Materials Horizons
IS - 10
ER -