Direct-Write Printed Epoxy Composites with Layered Gradient Structure: Shape Memory and Electromagnetic Shielding Performance
Junyao Zhou, Xianglong Zhu, Pan Deng, Yuzhe Ding, Zhenrong Zhang, Hao Cai, Jianke Du, Minghua Zhang

TL;DR
This paper introduces a printed epoxy composite with shape memory and electromagnetic shielding properties, reducing reflection and enabling material recycling.
Contribution
A novel layered gradient-structured composite is developed for low-reflection, high-absorption electromagnetic shielding with shape memory.
Findings
Layered gradient composites achieved 17.74 dB shielding effectiveness with reduced reflectivity by 39.1%.
Composites exhibited shape recovery within 63 seconds under 200 V, with over 92% shape fixity and recovery ratios.
Gradient structure showed 5.44 S/m conductivity and improved performance compared to homogeneous composites.
Abstract
To address the growing problem of electromagnetic pollution, the development of intelligent, multifunctional electromagnetic shielding materials is essential. The objective of this work is to fabricate an intelligent, low-reflection and high-absorption electromagnetic shielding composite via direct ink writing. In this study, epoxy resin (EP) was employed as the matrix, with nickel powder (Ni), multi-walled carbon nanotubes (MWCNTs), and silver powder (Ag) serving as functional fillers. Direct-ink printing enabled the fabrication of uniformly structured composites and layered gradient-structured composites. By precisely varying the filler content through layer-by-layer printing, the gradient-structured composite exhibited an increasing electrical conductivity gradient and a decreasing magnetic permeability gradient along the direction of electromagnetic wave incidence. Comprehensive…
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Taxonomy
TopicsElectromagnetic wave absorption materials · Smart Materials for Construction · Natural Fiber Reinforced Composites
