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| 研究生: |
張士晉 Chang, Shih-chin |
|---|---|
| 論文名稱: |
掺CFB副產石灰之鹼激發飛灰膠凝材料工程性質之研究 A Study of the Mechanics Properties and Reaction of Alkali-activated Binder by Use of Class F Fly Ash and CFB Byproduct Lime |
| 指導教授: |
陳景文
Chen, Jing-Wen |
| 學位類別: |
碩士 Master |
| 系所名稱: |
工學院 - 土木工程學系 Department of Civil Engineering |
| 論文出版年: | 2009 |
| 畢業學年度: | 97 |
| 語文別: | 中文 |
| 論文頁數: | 111 |
| 中文關鍵詞: | 鋁矽酸鹽類 、土壤聚合物 、CFB副產石灰 、飛灰 、鹼激發膠凝材料 |
| 外文關鍵詞: | Alkali-activated cementitious materials, alumino-silicate, geopolymer, F class fly ash, CFB byproduct lime |
| 相關次數: | 點閱:114 下載:1 |
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鹼激發膠凝材料是指各種矽酸鹽類和鋁矽酸鹽類礦物,在添加固體或液狀鹼激發劑的作用下所形成具有膠結性質的材料。由於成份組成和製作過程的不同,使得膠凝材料之硬化機制和水化產物與波特蘭水泥大不相同。近年來這類膠凝材料被認為具有特殊優良的性能,如抗壓強度、抗腐蝕性、抗滲透性和耐久性等都優於普通波特蘭水泥。本研究使用台電興達發電廠飛灰、氫氧化鈉溶液與水玻璃作為鹼膠凝材料,為了激發飛灰潛在的活性,經過研磨使其粒徑90%小於10µm,並添加CFB副產石灰增加鈣含量,幫助打破飛灰玻璃質外層,並參與反應生成鈣矽水化物及鈣鋁水化物填充孔隙使強度上升,為了試驗結果的討論我們將依照不同成分配比製作試體,從材料外部的工作性質、抗壓強度試驗,到內部微觀構造作一完整分析。在各項試驗中發現,此膠凝材料在7天到28天齡期期間的抗壓強度仍有成長,且在適當的水膠比下可得到良好的流動性,在電子顯微鏡試驗中觀察這類膠凝材料的產物,包括土壤聚合物以及各類水化物膠體。前者為初期產物,後者則在7天後仍陸續產生使後期強度持續提升。
The Alkali-activated cementitious materials refer to each kind of silicates and aluminosilicates which adds the solid or liquid state of alkali activator to initiate a reaction and produce the material with cementitious property. Due to the differences between the composition of material and the process of manufacture, both the harden mechanism and type of hydrate of Alkali-activated cementitious material differ from these of Portland cement In recent years, this Alkali-activated cementitious material is considered to have fabulous performance, for instance, high compressive strength, corrosion resistance, permeation resistance, durability, etc., are much better than these properties of Portland cement.
In this study, the industrial waste such as Circulating Fluidized Bed(CFB) byproduct lime and mechanical activated fly ash were investigated as basic ingredient of alkali-activated cementitious materials. Attrition milling is carried out to improve reactivity of fly ash through size reduction and Calcium in byproduct lime can support the reactions. According to different mixture of materials, we discuss the experiment results, and make the analysis from material mechanical properties, to internal microstructure completely. The compressive strength increases continuingly in 28 days. It is also with well fluidity as an appropriate water:gel ratio. Scanning electron microscopy was used to observe the end products of alkali-activated cementitious materials, geopolymer gel and calcium silicate hydrate gel are included. However, because of its well apparel and firm structure, it is the reason mechanical excel in its performance.
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校內:2011-08-21公開校外:2011-08-21公開