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研究生: 李永峰
Lee, Yung-Feng
論文名稱: 足尺寸液流阻尼器之研發
Development of Full-Scale Fluid Dampers
指導教授: 徐德修
Hsu, Deh-Shiu
學位類別: 博士
Doctor
系所名稱: 工學院 - 土木工程學系
Department of Civil Engineering
論文出版年: 2006
畢業學年度: 94
語文別: 中文
論文頁數: 137
中文關鍵詞: 防振結構控制液流阻尼器
外文關鍵詞: fluid damper, structural control, seismatic
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    • 為達落實工程實務應用之目的,本文係將本土液流阻尼器之研發推展至實尺寸阻尼器之設計、製造及測試。依照HITEC規範評估被動消能器之7個試驗項目及步驟,測試本土阻尼器品質及性能之一致性、穩定性、耐久性、耐磨損及耐老化等特性,並與國外已在工程實務應用之產品相比較。
    試驗證明吾人已有發展100噸級本土化阻尼器之能力,所設計之阻尼器皆滿足試驗之要求,其性能品質具備消能之穩定性、產品製造之一致性、耐久性以及耐磨損與耐老化等特性,具體可行且水準毫不亞於國外之產品及技術,此結果對於本土防振技術應可提供很大之貢獻。

    The domestically produced full-scale fluid dampers have been designed to be practicable in engineering application. The quality and performance of the dampers evaluated in compliance with HITEC guidelines include consistency, stability, durability, fatigue and wear and environmental aging, etc. The performance test proved that the domestic manufacturers have already been capable to develop and produce fluid dampers with sizes up to 100 tons. The quality of these fluid dampers is comparable with those of imported product. This will be a great contribution to the development of aseismatic technology in the country.

    目 錄 中英文摘要 誌謝 目錄..................................Ⅰ 表目錄…………........................Ⅲ 圖目錄................................Ⅵ 第一章 緒 論..........................1 1.1 研究背景...........................1 1.2 研究內容及目的.....................3 1.3本文內容概要........................7 第二章 液流阻尼器簡介.................9 2.1液流阻尼器之發展....................9 2.2基本構造及原理......................11 2.3液流阻尼器力學模式..................13 第三章 液流阻尼器之設計...............16 3.1 液流阻尼器設計之演進...............16 3.2 油封………………...................17 3.3液流阻尼器之設計....................20 第四章 液流阻尼器試驗.................23 4.1 HITEC試驗規範…....................23 4.2 動態循環載重試驗...................27 4.3 鹽霧試驗…………….................29 第五章 試驗結果與討論…...............30 5.1 測試設備性能評估….................30 5.2 HITEC規範測試結果………............31 5.2.1性能測試......................... 31 5.2.2頻率測試…………..................32 5.2.3疲勞與磨損試驗 .................. 33 5.2.4老化試驗………….................34 5.2.5極端溫度下之動態特性測試.........35 5.2.6耐久性試驗………................ 36 5.2.7破壞試驗…………................ 36 5.3 阻尼器性能檢討…………............38 第六章 技術推廣概述………........... 42 6.1 研發產品現況….…………...........42 6.2 阻尼器之設計及應用..…........... 46 6.3 預備研發之課題……..…............ 48 第七章 結論……….................... 52 參考文獻.............................. 54 附錄A 鹽霧試驗報告書 附錄B HITEC規範

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