Influence of Wave-Absorbing Functional Particles on the Electromagnetic Properties and Mechanical Properties of Coated Composites for Nickel Powders

• Published in: Fibres & textiles in Eastern Europe Vol. 28; no. 5(143); pp. 75 - 81
• Main Authors: Liu, Yuanjun, Wang, Yi, Wu, Xiang, Zhang, Lulu, Niu, Jiarong
• Format: Journal Article
• Language: English
• Published: 31.10.2020
• ISSN: 1230-3666; 2300-7354
• DOI: 10.5604/01.3001.0014.2389

In this subject, a single-layer coated composite for nickel powders was prepared using PU2540 polyurethane as the matrix, nickel powder as the wave-absorbing functional particle, and coating technology on plain cotton fabric. The influence of wave-absorbing functional particles on the dielectric, shielding effectiveness and mechanical properties of the single-layer coated composite for nickel powders was mainly analysed and compared. Results showed that the real and imaginary parts and loss tangent of the dielectric constant were all the largest when the iron powder was mixed with the nickel powder, and its polarizing ability, loss ability and attenuation ability with respect to electromagnetic waves were all the maximum. When the graphene was mixed with the nickel powder, the shielding attenuation ability with respect to electromagnetic waves was the best.