Turkish Journal of Electrical Engineering and Computer Sciences
Design and manufacture of electromagnetic absorber composed of boricacid-incorporated wastepaper composites
With the effect of technological advances, the use of electrical and electronic devices has increased dramatically in recent years. Wireless technologies and related applications are mostly preferred for the communication of these devices with each other. Thus, people are easily exposed to electromagnetic waves in daily life. The extensive global use of these devices raises the question of their possible biological effects on human health. Also, electromagnetic waves influence the functioning of a nearby device. In this study, an electromagnetic absorber based on boric acid (5, 10, 20, and 30 wt%) added wastepaper was developed. Copper (Cu) and aluminum (Al) were also used as mineral additives for comparison. Three different kinds of wastepaper namely, office paper, newsprint, and cardboard paper were selected for the experimental study. The effect of varying boric acid contents on the electromagnetic absorption of the boards manufactured was evaluated and compared to Cu (30 wt%) and Al (30 wt%) added boards. The results show that newsprint has better absorption effectiveness than office and cardboard paper and absorption up to 40 dB was achieved. The absorption effectiveness of Al, Cu, and boric acid added boards was achieved at approximately 40, 30, and 20 dB, respectively. As a result, the electromagnetic absorption effectiveness of boric acid added the board is acceptable levels. Also, apart from the use of boric acid as a powder, it has been determined that the application of the surface as a layer is effective in absorption.
boric acid, composite material, electromagnetic absorber, wastepaper
KAYA, ALİ İHSAN; ÇİFCİ, AHMET; KIRDIOĞULLARI, FİLİZ; KAHRİMAN, MESUD; and ÇEREZCİ, OSMAN
"Design and manufacture of electromagnetic absorber composed of boricacid-incorporated wastepaper composites,"
Turkish Journal of Electrical Engineering and Computer Sciences: Vol. 30:
3, Article 23.
Available at: https://journals.tubitak.gov.tr/elektrik/vol30/iss3/23
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