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Development of low-loss millimeter-wave antennas on fluorine substrate using electro-fine-forming fabrication

電子微細加工技術を用いた低損失フッ素材料の開発

伊藤 直樹*; 間瀬 淳*; 瀬古 典明; 玉田 正男; 坂田 栄二*; 近木 祐一郎*

Ito, Naoki*; Mase, Atsushi*; Seko, Noriaki; Tamada, Masao; Sakata, Eiji*; Kogi, Yuichiro*

Poly(tetrafluoroethylene)(PTFE)は、誘電率が小さく電気的特性が優れ、ミリ波アンテナ材料として有望な材料である。しかし、さまざまな金属に対して接着力が弱いという性質を併せ持つ。そこで、放射線グラフト重合によりPTFEの材料表面の改質を図った。その結果、反応前後の誘電率が未処理の2.1に対し2.2となり、フッ素樹脂基板の誘電特性を損なわないことがわかった。また、銅を蒸着したPTFE膜の接着強度は未処理の3.9N/cmから10.3N/cmに向上することがわかった。

Polytetrafluoroethylene (PTFE) has many desirable properties for substrates of millimeter-wave planar antennas such as low dielectric constant and loss tangent. However, it has weak adhesion to various metals. Surface treatment of PTFE via radiation-induced graft polymerization was carried out to improve the adhesion. The peel adhesion strength of the PTFE/Cu was attained to be 10.3 N/cm by the treatment. The dielectric function of grafted-PTFE remained almost unchanged after the graft polymerization. The design and fabrication of millimeter-wave antennas on the treated PTFE substrates have been performed using electro-fine-forming (EF2) technology.

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