陳希立Chen, Sih-Li臺灣大學:機械工程學研究所鄭丞佑Cheng, Cheng-YuCheng-YuCheng2010-06-302018-06-282010-06-302018-06-282008U0001-2706200818233600http://ntur.lib.ntu.edu.tw//handle/246246/187290隨著個人電腦的普及其效能之提升，帶動了散熱技術之演進，進而提升熱管散熱模組的需求量和性能要求。在大量散熱模組之生產需求下，品質管理檢測的議題也越來越受到重視，而現下檢測時間過長之問題，將導致生產效率降低、成本增加。研究主題為規劃一套熱管散熱模組之完整實驗方法與流程，藉此分析熱管散熱模組各部元件之溫度反應，在不同實驗參數下之的變化；實驗參數主要包含加熱方式、加熱量、風扇開啟時間等。另一方面，運用塊狀系統之理論為基礎，建立一套數值模擬方法來預估熱管散熱模組之動態溫度反應，幫助實驗參數之制定，減少以試誤法求得之檢測參數與判斷準則之時間及成本。研究藉由模擬結果求得適當之檢測參數範圍，證實建立散熱模組的模擬方法之可行性，並配合實驗結果得出在不同加熱方式下，各種適當的檢測參數與判斷方法。最終透過動態檢測的方法制定，將測試時間縮短為30秒，提高效率。The higher penetration rate and better performance efficiency of personal computer (PC) nowadays has led to the improvement of cooling technology, increasing demand, and higher quality requirement of heat pipe cooling module. Following this trend, the topic of Quality Management becomes more and more important. Therefore, the existing problem of long examination process, which causes worse manufacturing efficiency and higher cost, turns to be one issue to be further improved in cooling field.ur research focus on designing the experiment methodology and process for heat pipe cooling module, and try to analyze the temperature response change of each component in heat pipe cooling module under different situations. The main experimental parameters include the heating methods, heating temperature, and time to turn on the fan. In addition, based on Lumped System theory, we build up a simulation model to find out the dynamic temperature response of heat pipe cooling module, and then set up experimental parameters. Under this simulation, we could reduce the time and cost on testing parameters and analysis principles with try and error method.he study proves to be the successful simulation model to find out suitable parameters range and analysis principles under different heating methods. Finally, our research results successfully shorten the examination time to 30 seconds through transient examination method.誌謝 I要 IIbstract III目錄 VIII目錄 IX號說明 XIII一章 緒論 1.1 前言 1.2 研究動機 2.3 研究目的 3.4 文獻回顧 4二章 基本理論與模擬方法 9.1熱管基本介紹 9.2動態理論分析模式 12.2.1基本理論 12.2.2數值模擬方法 15.2.3熱管散熱模組動態模擬 17.3熱阻分析模式 20三章 實驗設備與研究方法 33.1 接觸熱阻實驗與量測設備 33.1.1 實驗系統 33.1.2 實驗設備 34.1.3 儀器校正 35.1.4 實驗參數設定 35.1.5 實驗流程 36.2等熱通量加熱動態測試 37.2.1實驗系統 37.2.2 實驗設備 37.2.3實驗參數設定 38.2.4實驗流程 39.3等溫加熱動態測試 41.3.1實驗系統 41.3.2 實驗設備 41.3.3實驗參數設定 42.3.4 實驗流程 43四章 實驗結果與討論 51.1接觸熱阻實驗結果 51.2制定動態測試條件 52.2.1等熱通量加熱動態測試參數 52.2.2等溫加熱動態測試參數 56.2.3溫度量測點簡化 58.3熱管散熱模組判斷準則 60.3.1底板與熱管接觸之判斷準則 60.3.2熱管性能判斷準則 62.3.3強制對流效能 62.3.4熱管散熱模組判斷準則結論 63.4模擬結果討論 66五章 結論與建議 94.1結論 94.2建議 96考文獻 993510031 bytesapplication/pdfen-US熱管散熱模組動態分析動態模擬Heat Pipeooling Moduleynamic Analysisynamic Simulationthesishttp://ntur.lib.ntu.edu.tw/bitstream/246246/187290/1/ntu-97-R95522306-1.pdf