Pond ash produced from Seochun Power Station was quantitatively characterized to manufacture geopolymers with a range of Si/Al compositional ratios. Mix consistency was kept nearly constant for comparing the compressive strengths of geopolymers. The amorphous composition of coal ash was determined using XRF and quantitative X-ray diffraction. Different mix compositions were used in order to achieve Si/Al ratios of 2.0, 2.5 and 3.0 in the geopolymer binder. Geopolymers synthesized from coal ash with a Si/Al ratio of 3.0 exhibited the highest compressive strength in this study. It was found that geopolymers activated with aluminate produced different microstructure from that of geopolymers activated with silicate. High silica in alkali activators produced the fine-grained microstructure of geopolymer gel. It was also found that high compressive strength was related to low porosity and a dense, connected microstructure. The outcome of the reported experiment indicates that quantitative formulation method made it possible to choose suitable activators for achieving targeted compositions of geopolymers and to avoid efflorescence.

1 안응모, "화력발전소 바텀애쉬와 수산화나트륨 활성화제를 이용해 제작한 지오폴리머의 압축강도 특성" 한국재료학회 22 (22): 71-77, 2012

2 류금성, "플라이애쉬 基盤 알칼리 活性 모르타르의 力學的 特性 및 微細構造 分析" 한국자원리싸이클링학회 21 (21): 28-38, 2012

3 김진태, "알루미노실리케이트계 지오폴리머의 압축강도에 미치는 물유리의 영향" 한국재료학회 20 (20): 488-493, 2010

4 김진태, "알루미노 실리케이트계 지오폴리머의 압축강도에 미치는 알카리 활성화제의 영향" 한국세라믹학회 47 (47): 216-222, 2010

5 황연, "각종 첨가제가 지오폴리머 반응된 석탄회의 압축강도에 미치는 영향" 한국재료학회 22 (22): 494-498, 2012

6 O. Font, "X-ray Powder Diffraction- Based Method for the Determination of the Glass Content and Mineralogy of Coal (Co)-Combustion Fly Ashes" 89 : 2971-2976, 2010

7 P. Duxson, "Understanding the Relationship Between Geopolymer Composition, Microstructure and Mechanical Properties" 269 : 47-58, 2005

8 S. Lee, "Unburned Carbon Removal Effect on Compressive Strength Development in a Honeycomb Briquette Ash-Based Geopolymer" 97 : 20-25, 2010

9 A. Fernandez-Jimenez, "The Role Played by the Reactive Alumina Content in the Alkaline Activation of Fly Ashes" 91 : 111-119, 2006

10 R. A. Fletcher, "The Composition Range of Aluminosilicate Geopolymers" 25 : 1471-1477, 2005

11 W. K. W. Lee, "Structural Reorganisation of Class F Fly Ash in Alkaline Silicate Solutions" 211 : 49-66, 2002

12 M. Steveson, "Relationships Between Composition, Structure and Strength of Inorganic Polymers Part2 Fly Ash-Derived Inorganic Polymers" 40 : 4247-4259, 2005

13 M. Steveson, "Relationships Between Composition, Structure and Strength of Inorganic Polymers Part1 Metakaolin-Derived Inorganic Polymers" 40 : 2023-2036, 2005

14 R. P. Williams, "Quantification of the Extent of Reaction of Metakaolin-Based Geopolymers Using X-Ray Diffraction, Scanning Electron Microscopy, and Energy-Dispersive Spectroscopy" 94 (94): 2663-2670, 2011

15 M. C. Fuerstenau, "Principles of Mineral Processing" Society for Mining, Metallurgy, and Exploration Inc. 573-, 2003

16 S. Lee, "Phase Transformation Sequence from Kaolinite to Mullite Investigated by an Energy-Filtering Transmission Electron Microscope" 82 (82): 2841-2848, 1999

17 전철민, "PONKCS 방법을 이용한 비정질 실리카 함유 인공광물혼합시료의 정량 X-선회절 분석" 한국광물학회 26 (26): 27-34, 2013

18 C. Shi, "New Cements for the 21st Century: The Pursuit of an Alternative to Portland Cement" 41 : 750-763, 2011

19 J. L. Provis, "Geopolymers-Structrure, Processing Properties and Industrial Applications" Woodhead Publishing Limited and CRC Press LLC 72-88, 2009

20 K. Komnitsas, "Geopolymerisation: A Review and Prospects for the Minerals Industry" 20 : 1261-1277, 2007

21 P. Duxson, "Geopolymer Technology: the Current State of the Art" 42 : 2917-2933, 2007

22 D. Hardjito, "Factors Influencing the Compressive Strength of Fly Ash-Based Geopolymer Concrete" 6 (6): 88-93, 2004

23 Kani, E. Najafi, "Efflorescence Control in Geopolymer Binders Based on Natural Pozzolan" 34 (34): 25-33, 2012

24 L. Weng, "Effects of Aluminates on the Formation of Geopolymers" 117 (117): 163-168, 2005

25 J. G. S. van Jaarsveld, "Effect of the Alkali Metal Activator on the Properties of Fly Ash- Based Geopolymers" 38 (38): 3932-3941, 1999

26 M. F. Nuruddin, "Effect of Mix Composition on Workability and Compressive Strength of Self-Compacting Geopolymer Concrete" 38 : 1-8, 2011

27 N. W. Chen-Tan, "Determining the Reactivity of a Fly Ash for Production of Geopolymer" 92 (92): 881-887, 2009

28 R. P. Williams, "Determination of the Reactive Component of Fly Ashes for Geopolymer Production Using XRF and XRD" 89 : 3683-3692, 2010

29 C. R. Ward, "Determination of Glass Content and Estimation of Glass Composition in Fly Ash Using Quantitative X-ray Diffractometry" 85 : 2268-2277, 2006

30 R. T. Chancey, "Comprehensive Phase Characterization of Crystalline and Amorphous Phases of a Class F Fly Ash" 40 (40): 146-156, 2010

31 M. R. Rowles, "Chemical and Structural Microanalysis of Aluminosilicate Geopolymers Synthesized by Sodium Silicate Activation of Metakaolinite" 92 (92): 2354-2361, 2009

32 M. Rowles, "Chemical Optimisation of the Compressive Strength of Aluminosilicate Geopolymers Synthesised by Sodium Silicate Activation of Metakaolinite" 13 : 1161-1165, 2003