Publication detail

Milimeter-wave Propagation in 3D Knitted Fabrics

KOKOLIA, M. RAIDA, Z.

Original Title

Milimeter-wave Propagation in 3D Knitted Fabrics

English Title

Milimeter-wave Propagation in 3D Knitted Fabrics

Type

conference paper

Language

en

Original Abstract

The paper deals with the characterization of EM wave propagation in 3D knitted fabrics made from polyester yarns. Due to the periodic structure of the knitted fabrics, band gaps can be identified at higher frequencies. Due to the vertical orientation of yarns, certain anisotropy can be expected. In order to characterize band gaps and anisotropy, numerical models of knitted fabrics have been developed considering the micro-structure of the material. EM wave propagation was simulated in frequency band from 80 GHz to 200 GHz in CST Microwave Studio.

English abstract

The paper deals with the characterization of EM wave propagation in 3D knitted fabrics made from polyester yarns. Due to the periodic structure of the knitted fabrics, band gaps can be identified at higher frequencies. Due to the vertical orientation of yarns, certain anisotropy can be expected. In order to characterize band gaps and anisotropy, numerical models of knitted fabrics have been developed considering the micro-structure of the material. EM wave propagation was simulated in frequency band from 80 GHz to 200 GHz in CST Microwave Studio.

Keywords

Knitted fabrics, electromagnetic band gap, anisotropy, millimeter-wave frequencies, EM wave, propagation, periodic structure.

Released

15.05.2018

Location

Poznan

ISBN

978-83-949421-1-3

Book

Proceedings of MIKON 2018

Pages from

172

Pages to

175

Pages count

4

BibTex


@inproceedings{BUT147197,
  author="Martin {Kokolia} and Zbyněk {Raida}",
  title="Milimeter-wave Propagation in 3D Knitted Fabrics",
  annote="The paper deals with the characterization of EM wave propagation in 3D knitted fabrics made from
polyester yarns. Due to the periodic structure of the knitted fabrics, band gaps can be identified at higher frequencies. Due to the vertical orientation of yarns, certain anisotropy can be expected. In order to characterize band gaps and anisotropy, numerical models of knitted fabrics have been developed considering the micro-structure of the material. EM wave propagation was simulated in frequency band from 80 GHz to 200 GHz in CST Microwave Studio.",
  booktitle="Proceedings of MIKON 2018",
  chapter="147197",
  doi="10.23919/MIKON.2018.8405319",
  howpublished="online",
  number="1",
  year="2018",
  month="may",
  pages="172--175",
  type="conference paper"
}