研究生: |
蕭添進 TIEN-CHIN HSIAO |
---|---|
論文名稱: |
田口法及灰關聯分析再生粒料混凝土性質優選配比之研究 PROPORTIONING METHODOLOGY FOR OPTIMAL ENGINEERING PROPERTIES OF RECYCLED AGGREGATE CONCRETE USING TAGUCHI METHOD AND GREY RELATIONAL ANALYSIS |
指導教授: |
張大鵬
Ta-Peng Chang |
口試委員: |
黃然
none 楊仲家 Chung-Chia Yang 詹穎雯 Yin-Wen Chan 林秉如 Ping-Ju Lin 歐昱辰 Yu-Chen Ou 陳君弢 Chun-Tao Chen |
學位類別: |
博士 Doctor |
系所名稱: |
工程學院 - 營建工程系 Department of Civil and Construction Engineering |
論文出版年: | 2011 |
畢業學年度: | 99 |
語文別: | 中文 |
論文頁數: | 154 |
中文關鍵詞: | 再生混凝土粒料 、田口實驗計畫法 、灰色關聯度 、最優選工程性質 |
外文關鍵詞: | recycled concrete aggregate, mix proportion for recycled aggregate concrete, Taguchi method of experimental design, grey relationship, optimal engineering properties |
相關次數: | 點閱:390 下載:8 |
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本研究提出一個新的再生粒料混凝土配比計算法,配合田口實驗計畫法評估再生粒料混凝土優選工程性質,變數包括不同水膠比(0.37、0.40及0.43) 、再生混凝土粗粒料取代率(25%或0%、50%及100%)、再生混凝土細粒料取代率(45%或0%、15%及30%)及爐石取代率(0%、20%及40%)對再生粒料混凝土坍流度、表面電阻率及抗壓強度之影響,最後以灰色關聯度法分析判定多重品質特性之最優選化製程,研究結果顯示最優選再生粒料混凝土配比組合為0.40水膠比、再生混凝土粗粒料量取代量100 %、再生混凝土細粒料取代量15 %及爐石取代量0 %,所得最優選工程性質為56天抗壓強度為46.59 MPa、表面電阻率為42.73 kΩ-cm,坍流度值為653 mm,顯示使用再生混凝土粗細粒料之再生粒料混凝土最優選工程性質評估模式可行。
This study proposes a new mix proportion method for recycled aggregate concrete and incorporates the Taguchi method of experimental design and analysis of grey relationship to investigate the optimal engineering properties of recycled aggregate concrete. Experimental variables include different W/C (water-cementitious material) ratios (0.37, 0.40 and 0.43), replacements of recycled coarse aggregate (RCA) (25% or 0%, 50% and 100%),replacements of recycled fine aggregate (45% or 0%, 15% and 30%) and three replacement ratios of slag (0%, 20% and 40%) for the evaluation of the slump flow, electrical resistance and compressive strength of recycled aggregate concrete . Finally, the analysis of grey relationship is used to identify the optimal manufacture process from the multiple indices of quality. The results show that the optimal mixture proportioning is found to be 0.4 of W/C, 100% RCA, 15% RFA and 0% slag. The resulting RAC has the compressive strength of 46.59 MPa, electrical resistance of 42.73 k-cm and slump flow of 653 mm, indicating the feasibility of the evaluation model for the recycled concrete with the recycled concrete coarse and fine aggregates.
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