Millimeter-Wave Dielectric Properties of Cordierite/Indialite Glass Ceramics

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概要

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• Millimeter-wave wireless communications with high data transfer and radar system for Pre-Crash Safety System have been developed recently. Cordierite (Mg₂Al₄Si₅O₁₈) is one of the silicates with good millimeter-wave dielectric properties. Cordierite has two polymorphs: cordierite and indialite. Cordierite is of low symmetry form with ordered structure, and indialite is of high symmetry form with disordered structure. In this study, indialite/cordierite glass ceramics are fabricated with good millimeter-wave properties. The $\mathit{Qf}$ values are dependent on the amount of indialite phase and crystallization conditions. Indialite with high symmetry showed higher $\mathit{Qf}$ values than cordierite with low symmetry. This result clearly shows that high symmetry results in high $\mathit{Qf}$ when the samples are prepared under the same crystallization conditions. However, these glass ceramics are very difficult to make under the same conditions because of non-uniform crystallization. These dielectric glass ceramics show high $\mathit{Qf}$ values of ${>}200{,}000$ GHz, low dielectric constant $\varepsilon_{\text{r}} = 4.7$, and $\mathit{TCf}= -27$ ppm/°C.

• 2011-09-25

著者

• Ohsato Hitoshi

  Department Of Materials Science And Engineering Graduate School Of Engineering Nagoya Institute Of T

• Cheon Chae-Il

  Department of Materials and Mechanical Engineering, Hoseo University

• Cheon Chae-Il

  Department of Semiconductor and Display Engineering, BK21 Graduate School, Hoseo University, Asan, Chungnam 336-795, Korea

• Ohsato Hitoshi

  Department of Semiconductor and Display Engineering, BK21 Graduate School, Hoseo University, Asan, Chungnam 336-795, Korea

• Kim Jeong-Seog

  Department of Materials and Mechanical Engineering, Hoseo University

• Chae Ki-Woong

  Department of Material Science and Engineering, Hoseo University, Asan, Chungnam 336-795, Korea

• Kim A-Young

  Department of Material Science and Engineering, Hoseo University, Asan, Chungnam 336-795, Korea

• Kim Jeong-Seog

  Department of Semiconductor and Display Engineering, BK21 Graduate School, Hoseo University, Asan, Chungnam 336-795, Korea

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