Developing a bio-composite substrate using bambusa vulgaris for microwave application / Mohamad Yusof Mat Zain

Antenna is one of the most important components in wireless communication systems. In line with the advancement of industrial technology, the development of antenna should also be improved to meet the needs of the industry especially in the field of wireless communication. There are many antennas us...

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Main Author: Mat Zain, Mohamad Yusof
Format: Thesis
Language:English
Published: 2019
Online Access:https://ir.uitm.edu.my/id/eprint/83291/1/83291.pdf
https://ir.uitm.edu.my/id/eprint/83291/
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spelling my.uitm.ir.832912023-11-16T09:28:46Z https://ir.uitm.edu.my/id/eprint/83291/ Developing a bio-composite substrate using bambusa vulgaris for microwave application / Mohamad Yusof Mat Zain Mat Zain, Mohamad Yusof Antenna is one of the most important components in wireless communication systems. In line with the advancement of industrial technology, the development of antenna should also be improved to meet the needs of the industry especially in the field of wireless communication. There are many antennas used to fulfil the needs of wireless communication. One of the existing antennas is the patch antenna. Currently, patch antennas were developed using existing substrates such as Flame Retardant type 4 (FR-4) and Rogers. These substrates are good but they are expensive. Thus, the development of a new low cost substrate with good performance would really be significant to the communication field. Beside that, with the supportive intention to utilise the abundant natural resources, the novel of rectangular patch antenna fabricated using a new bio-composite material is presented in this study. The bio-composite material is used to serve as an alternative substance in microwave applications. The bio-composite material is made of a bamboo which is technically known as Bambusa Vulgaris and a particular polymer named as High Density Polyethylene (HDPE). In general, the bio-composite material is purposely developed as a substrate in the patch antenna application. The green composite substrate is developed through wood plastic composite (WPC) technique that involves a lot of procedures, standards, and apparatuses. 7 samples of substrates separated by different composition of elements and different filler’s (Bambusa Vulgaris) particle size were invented. The characteristics of all developed substrates were measured using several techniques and standards. All involved equipment, samples, and procedures adhered to the certified American Society for Testing and Materials (ASTM) standards. All the developed bio-composite substrates were measured their characteristics in terms of dielectric constant, loss tangent, breakdown voltage, and tensile strength. Every fabricated substrate provides unique properties which would provide big impacts in patch antenna applications. Furthermore, a patch antenna was developed using one of the developed substrates to verify the effectiveness of the bio-composite substrate in patch antenna application. Few parameters such as S-parameter and radiation pattern were measured to observe the real performance of the rectangular patch antenna developed on the bio-composite substrates. From these two major parameters, other performances of the patch antenna could be calculated and determined. Beside that, for comparison, a patch antenna was also fabricated using a selected existing substrate which is FR-4. According to the obtained results, the patch antenna developed using Bambusa Vulgaris offers better performance compared to FR-4. The patch antenna using Bambusa Vulgaris provides higher gain, wider beamwidth, and higher efficiency. All measurement results were recorded, analysed, and discussed. Beside that, further investigations on this substrate are really needed and this was also addressed. This is because to reveal other potentials of the bio-composite material in the current industry and technology. 2019 Thesis NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/83291/1/83291.pdf Developing a bio-composite substrate using bambusa vulgaris for microwave application / Mohamad Yusof Mat Zain. (2019) PhD thesis, thesis, Universiti Teknologi MARA (UiTM).
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
description Antenna is one of the most important components in wireless communication systems. In line with the advancement of industrial technology, the development of antenna should also be improved to meet the needs of the industry especially in the field of wireless communication. There are many antennas used to fulfil the needs of wireless communication. One of the existing antennas is the patch antenna. Currently, patch antennas were developed using existing substrates such as Flame Retardant type 4 (FR-4) and Rogers. These substrates are good but they are expensive. Thus, the development of a new low cost substrate with good performance would really be significant to the communication field. Beside that, with the supportive intention to utilise the abundant natural resources, the novel of rectangular patch antenna fabricated using a new bio-composite material is presented in this study. The bio-composite material is used to serve as an alternative substance in microwave applications. The bio-composite material is made of a bamboo which is technically known as Bambusa Vulgaris and a particular polymer named as High Density Polyethylene (HDPE). In general, the bio-composite material is purposely developed as a substrate in the patch antenna application. The green composite substrate is developed through wood plastic composite (WPC) technique that involves a lot of procedures, standards, and apparatuses. 7 samples of substrates separated by different composition of elements and different filler’s (Bambusa Vulgaris) particle size were invented. The characteristics of all developed substrates were measured using several techniques and standards. All involved equipment, samples, and procedures adhered to the certified American Society for Testing and Materials (ASTM) standards. All the developed bio-composite substrates were measured their characteristics in terms of dielectric constant, loss tangent, breakdown voltage, and tensile strength. Every fabricated substrate provides unique properties which would provide big impacts in patch antenna applications. Furthermore, a patch antenna was developed using one of the developed substrates to verify the effectiveness of the bio-composite substrate in patch antenna application. Few parameters such as S-parameter and radiation pattern were measured to observe the real performance of the rectangular patch antenna developed on the bio-composite substrates. From these two major parameters, other performances of the patch antenna could be calculated and determined. Beside that, for comparison, a patch antenna was also fabricated using a selected existing substrate which is FR-4. According to the obtained results, the patch antenna developed using Bambusa Vulgaris offers better performance compared to FR-4. The patch antenna using Bambusa Vulgaris provides higher gain, wider beamwidth, and higher efficiency. All measurement results were recorded, analysed, and discussed. Beside that, further investigations on this substrate are really needed and this was also addressed. This is because to reveal other potentials of the bio-composite material in the current industry and technology.
format Thesis
author Mat Zain, Mohamad Yusof
spellingShingle Mat Zain, Mohamad Yusof
Developing a bio-composite substrate using bambusa vulgaris for microwave application / Mohamad Yusof Mat Zain
author_facet Mat Zain, Mohamad Yusof
author_sort Mat Zain, Mohamad Yusof
title Developing a bio-composite substrate using bambusa vulgaris for microwave application / Mohamad Yusof Mat Zain
title_short Developing a bio-composite substrate using bambusa vulgaris for microwave application / Mohamad Yusof Mat Zain
title_full Developing a bio-composite substrate using bambusa vulgaris for microwave application / Mohamad Yusof Mat Zain
title_fullStr Developing a bio-composite substrate using bambusa vulgaris for microwave application / Mohamad Yusof Mat Zain
title_full_unstemmed Developing a bio-composite substrate using bambusa vulgaris for microwave application / Mohamad Yusof Mat Zain
title_sort developing a bio-composite substrate using bambusa vulgaris for microwave application / mohamad yusof mat zain
publishDate 2019
url https://ir.uitm.edu.my/id/eprint/83291/1/83291.pdf
https://ir.uitm.edu.my/id/eprint/83291/
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score 13.211869