The Effects of Layer Thickness of Radar Absorbing Materials Prepared by Double Layer Method on X-Band Wavelength Frequency

Double layer coating with variations in layer thickness on radar absorbent material (RAM), and Polyaniline dobed by DBSA as a dielectric material has been successfully synthesized. As well as Barium M-Hexaferrite doped by Zn2+ at x=0.9 as magnetic material successfully synthesized. Polyaniline has b...

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Bibliographic Details
Published inMaterials science forum Vol. 966; pp. 35 - 40
Main Authors Triwikantoro, Triwikantoro, Ristiani, Deril, Zainuri, Mochammad, Puspitasari, Rahma Fitri
Format Journal Article
LanguageEnglish
Published Pfaffikon Trans Tech Publications Ltd 06.08.2019
Subjects
Absorption spectra
Barium
Coercivity
Magnetic materials
Magnetic properties
Polyanilines
Radar absorbers
Reflection
Semiconductor materials
Superhigh frequencies
Thickness
Magnetism
Double Layer
Barium M-Hexaferrite
Electrical Conductivity
Polyaniline
Reflection Loss
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Summary:Double layer coating with variations in layer thickness on radar absorbent material (RAM), and Polyaniline dobed by DBSA as a dielectric material has been successfully synthesized. As well as Barium M-Hexaferrite doped by Zn2+ at x=0.9 as magnetic material successfully synthesized. Polyaniline has been synthesized by polymerization method and Barium M-Hexaferrite has been synthesized by solid state method. Characterization results obtained the conductivity of Polyaniline and Barium M-Hexaferrite respectively 4.4 × 10-1 S/m and 2.09 × 10-3 S/m, both of which are in range of semiconductor materials conductivity. The presence of Zn2+ doping successfully reduced hard magnetic properties of Barium M-Hexaferrite to be soft magnetic, with coercivity field (Hc) equals 0.0181 Tesla. Based on research that has been done, represent that double layer design with variations PANi : PANi + BaM (3:1) has maximum reflection loss value about -29,6003 dB, and 96.69% of energy absorbed. Whereas in variation of PANi: PANi + BaM (3: 1) has minimum reflection loss value about -15.2937 dB, and 82.21% of energy absorbed. In addition, the coating thickness variations also affect the absorption band width, with the most effective absorption peaks in “D” variation with bandwidth equals 1.81 GHz in range of frequency 8 to 9.81 GHz.
Bibliography:Selected, peer reviewed papers from the 4th International Conference on Functional Materials Science 2018 (ICFMS 2018), November 13-15, 2018, Bali, Indonesia
ISSN:0255-5476
1662-9752
1662-9752
DOI:10.4028/www.scientific.net/MSF.966.35