Abstract
As the communication and electronic industry develops, it is important to study the electromagnetic shielding effectiveness (SE) of carbon fiber (CF) reinforced thermal plastics (CFRTP) against the electromagnetic (EM) radiation. In this paper the shielding effectiveness of CFRTP was measured experimentally in an electromagnetic shielding room. The resin ma- terials used were PC, PP, PEI, PMMA and PA. Experiments were carried out by using a copper box and a monopole antenna with a spectrum analyzer. From the experimental results it was found that CF was a good candidate as an electromagnetic shielding material. The sheilding effectiveness was found to be increased in the composite as the number of laminated layers of CF was increased. As the minor damage increased, the SE increased due to increasing of the plane density, transmitting thickness and reflected angle of the CF. Other characteristics of the SE depended on the material used for the resin matrix, distance of the antennas and the noise frequency band.
通信 및 電子훌業의 發達에 따라, 電磁波放射에 對한 밟素鐵維彈化樹(CFRTP)의 電磁波 避廠效果(SE)를 冊究하는 것은 重要하다. 本R究에서는 밟素熾維(CF)의 避빼옷效果를 電波8홉室內에서, 驗的으로 測定하였다. 使用한 樹服는 PC, PP, PEl, PMMA 및 PA이다. 實嚴은 分光分析器에 의해 鋼避蘇箱子와 모노폴안테나를 使用해 修行하였다. 훌훌結果로부터 CF는 良好한 電磁波適嚴材의 한 候補임을 알 수 있었다. SE는 CF의 積層의 增加에 따라 增加하였다. 徵小한 揚傷의 增加는 CF의 平面密度, 透過두께 및 反射角의 增加로 인해 SE를 增加 시켰다. SE에 미치는 다른 特性들은 母材樹服, 안테나問의 距離 및 노이즈의 周波數에 따라 달랐다.