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dc.contributor.author方俊傑
dc.date93學年度
dc.date第二學期
dc.date.accessioned2009-06-03T03:17:50Z
dc.date.accessioned2020-05-22T08:30:06Z-
dc.date.available2009-06-03T03:17:50Z
dc.date.available2020-05-22T08:30:06Z-
dc.date.issued2007-11-06T02:01:44Z
dc.identifier.otherd9151300
dc.identifier.urihttp://dspace.lib.fcu.edu.tw/handle/2377/481-
dc.description.abstract本專題研究報告提出一種改良式的金屬氧化膜熱傳導係數之量測方法,此方法結合自製的薄膜熱傳導量測儀及修定過的熱傳導理論,量測薄膜熱傳導係數。量測的結果顯示,氧化矽(SiO2)、氧化鈦(TiO2)、氧化鋁(Al2O3)、氧化鉭(Ta2O5)及氧化鈮(Nb2O5)等金屬氧化膜的熱傳導係數,其值分別為0.45(W/mK)、0.59(W/mK)、0.38(W/mK)、0.47(W/mK)、0.69(W/mK),最後將量測數據與相關文獻資料作比較,其誤差值在10%以內。 本專題研究已成功地研發一套薄膜熱傳導係數量測系統,其優點為非破壞性的量測、價格便宜、操作簡便、量測速度快。尤其是系統改善了因接觸面不穩定所造成的誤差,進而提升了量測系統之靈敏度與精確度,這對於金屬氧化膜熱傳導性質的研究上,是極為有用的。
dc.description.tableofcontents摘要.............................................................................................................I 目錄............................................................................................................II 圖目錄......................................................................................................IV 表目錄........................................................................................................V 符號說明..................................................................................................VI 第一章 緒論...............................................................................................1 1-1研究動機.......................................................................................1 1-2研究目的.......................................................................................1 1-3 研究方法......................................................................................2 1-4 論文架構......................................................................................2 第二章 熱傳導基本理論..........................................................................4 2-1 原理............................................................................................4 2-2 熱傳導分析模式........................................................................5 第三章 熱傳導量測技術..........................................................................9 3-1 文獻回顧....................................................................................9 3-1-1 3ω法------------------------------------------------------------9 3-1-2 特徵微結構法-------------------------------------------------11 3-1-3 聲光法---------------------------------------------------------12 3-1-4 熱比較測定法(thermal comparator)-----------------------14 第四章 實驗設備及量測........................................................................20 4-1 蒸鍍系統......................................................................................20 4-1-1 真空系統------------------------------------------------------20 4-1-2 電子槍蒸鍍系統---------------------------------------------21 4-1-3 離子源輔助系統---------------------------------------------21 4-1-4監控系統-------------------------------------------------------21 4-2 實驗架構....................................................................................21 4-2-1實驗量測-------------------------------------------------------22 第五章 結果與討論................................................................................25 5-1 金屬氧化膜熱傳導係數量測結果............................................25 5-2 溫度比例的影響........................................................................28 5-3 接觸面的影響............................................................................28 第六章 結論.............................................................................................31 參考文獻...................................................................................................32
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dc.language中文
dc.language.isozh_TW
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dc.subject熱傳導
dc.subject金屬氧化膜
dc.subject熱比較測定法
dc.title金屬氧化膜熱傳導係數量測之研究
dc.titleStudy on the thermal conductivity measurements of metal oxide films
dc.type大學生學期報告
dc.description.course薄膜光學
dc.contributor.department電機工程學系,資訊電機學院
dc.description.instructor田春林
分類:資電093學年度

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