Norlina Mohd Zain, Mohd Aziz Aris, Hajar Ja’afar, Robi’atun Adayiah Awang
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引用次数: 0
摘要
在最近的技术中,柔性基底对于提供可穿戴或柔性设备的灵活性至关重要。以往对有机基底材料的研究大多是开发一种缺乏柔性的固体结构。本文提出、分析并制造了一种新的柔性有机基底,它取材于露兜树(Pandanus atrocarpus,PA),用于 ISM 应用中的微波 0020 通信。研究了 PA 作为新型柔性有机基底材料的电气和机械性能。根据 PA 和 PDMS 作为粘合树脂的不同成分制备了五种样品,每种样品的厚度为 2 毫米。就介电性能而言,在 2.45 GHz 频率下,聚酰胺柔性有机基底的介电常数值从 2.268(0 wt%)增至 2.5681(40 wt%),损耗正切值从 0.0142(0 wt%)增至 0.0538(40 wt%)。然而,机械性能结果表明,当 PA 填料含量(0 至 40 wt%)增加时,拉伸强度从 1.25 兆帕增加到 2.04 兆帕,拉伸模量从 0.75 兆帕增加到 18.25 兆帕。因此,本研究中研究的 PA 柔性有机基底材料具有电气和机械性能特征,表明其可能适用于 ISM 应用中的微波通信。
Characterization of electrical and mechanical properties of Pandanus Atrocarpus flexible organic-based substrate for microwave communication in ISM applications
In recent technologies, flexible substrates have become essential to provide flexibility in wearable or flexible devices. Most of the previous research that focused on organic-based substrates had developed a solid structure that was inflexible. This paper proposes, analyzes, and fabricates a new flexible organic-based substrate from Pandanus atrocarpus (PA) for microwave0020communication in ISM applications. The electrical and mechanical properties of PA as a new flexible organic-based substrate have been investigated. The five samples were prepared based on the different compositions between PA and PDMS as bonding resin which are (0 wt to 40 wt%) percentage by weight of PA filler contents by mixing PDMS, each with a thickness of 2 mm. In terms of dielectric properties, the PA flexible organic-based substrates showed increases in dielectric constant values from 2.268 (0 wt%) to 2.5681 (40 wt%) and loss tangent values from 0.0142 (0 wt%) to 0.0538 (40 wt%) at 2.45 GHz frequency. However, the mechanical properties results showed increases in tensile strength from 1.25 to 2.04 MPa and tensile modulus from 0.75 to 18.25 MPa when increasing the PA filler content (0 to 40 wt%). Therefore, the PA flexible organic-based substrate examined in this study exhibits electrical and mechanical properties features that indicate its potential suitability for microwave communication in ISM applications.
期刊介绍:
The Journal of Materials Science: Materials in Electronics is an established refereed companion to the Journal of Materials Science. It publishes papers on materials and their applications in modern electronics, covering the ground between fundamental science, such as semiconductor physics, and work concerned specifically with applications. It explores the growth and preparation of new materials, as well as their processing, fabrication, bonding and encapsulation, together with the reliability, failure analysis, quality assurance and characterization related to the whole range of applications in electronics. The Journal presents papers in newly developing fields such as low dimensional structures and devices, optoelectronics including III-V compounds, glasses and linear/non-linear crystal materials and lasers, high Tc superconductors, conducting polymers, thick film materials and new contact technologies, as well as the established electronics device and circuit materials.
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