卜作嵐材料與強塑劑都是製作高性能混凝土的重要成份。本論文主要研究水泥、卜作嵐材料與強塑劑三者間之相容性(compatibility)。實驗材料包括第I型波特蘭水泥、飛灰與羧酸系強塑劑(PMAMP)，PMAMP係以甲基丙烯酸(MAA)與2-丙烯醯胺-2-甲基丙烷磺酸(AMPSA)為反應物，經自由基聚合反應而得。本研究探討PMAMP分子量、MAA / AMPSA比例、與飛灰燒失量等因素對於水泥漿體之迷你坍度、迷你坍度維持、視黏度、凝結時間的影響，並以強塑劑對漿體顆粒之吸附行為、表面電位等實驗來解釋之。
研究結果顯示添加重量平均分子量(Mw)為5.6 × 104者與MAA / AMPSA = 1 / 1的PMAMP之漿體迷你坍度最佳、視黏度最低，而添加Mw = 3.8×105與MAA / AMPSA = 3 / 2的PMAMP之漿體迷你坍度維持最佳。大體上，飛灰燒失量越低，漿體迷你坍度越佳；飛灰取代量越多時，若強塑劑AMPSA比例大於50%，則漿體迷你坍度、迷你坍度維持越佳。

Pozzolan and superplasticizer are two important components in making high performance concrete. In this research, the compatibility between cement, pozzolan, and superplasticizer was studied.
Experimentally, type I Portland cement, fly ash, and carboxylate- based superplasticizer (PMAMP) were used. PMAMP was prepared from methacrylic acid (MAA) and 2-acrylamido-2-methylpropane sulfonic acid (AMPSA) through free radical copolymerization. The effects of the MAA / AMPSA ratio and molecular weight of PMAMP, and the ignition loss of fly ash on the mini-slump, mini-slump retention, apparent viscosity, and setting time of cement pastes (water / cement = 0.3) were investigated. The results were explained by the adsorption behavior of PMAMP on solid particles and the zeta potential of particles.
It is indicated that cement pastes containing PMAMP with MAA / AMPSA = 1 / 1, Mw (weight-average molecular weight) = 5.6 × 104, show the highest mini-slump, and lowest apparent viscosity. Cement pastes containing PMAMP with MAA / AMPSA = 3 / 2, Mw = 3.8 × 105, show the best mini-slump retention.
Generally, the mini-slump of cement pastes increases with decreasing ignition loss of fly ash. The more fly ash added, the higher the mini-slump and mini-slump retention of cement pastes containing PMAMP (with MAA / AMPSA = 1 or more).

1. 楊思廉, “工業化學概論”, 高立出版社, 1992.
2..C. Jolicoeur, M. A. Simard, “Chemical admixture-cement interactions: phenomenology and physico-chemical concepts”, Cem. Concr. Composites, 20, 87~101, 1998.
3. 黃兆龍, “混凝土性質與行為”, 詹氏書局, 1997.
4. 林平全, “飛灰混凝土”, 科技圖書股份有限公司, 1989.
5..K. Wesche, “Fly ash in concrete--properties and performance”, E & FN Spon, N. Y., USA, 1991.
6. 林炳炎, “飛灰．矽灰．高爐爐石用在混凝土中”, 三民書局, 1993.
7..ASTM committee, “Annual Book of ASTM Standard: concrete and concrete aggregates”, ASTM, PA., USA, 1996.
8. E. Rossouw, J. Kruger, “Review of specifications for additions for use in concrete”, Fly Ash, Silica Fume, Slag and other Mineral By-products in Concrete, ACI SP-79, 1, 201~220, Amer. Concr. Ins., Detroit, USA, 1983.
9. V. R. Sturrup, R. D. Hooton, T. G. Glenddnning, “Durability of fly ash concrete”, Fly Ash, Silica Fume, Slag and other Mineral By-products in Concrete, ACI SP-79, 1 , 71~86, Amer. Concr. Ins., Detroit, USA, 1983.
10. H. Onga, S. Nagatak, “Effect of fly ash on alkali-aggregate reaction in marine environment”, Fly Ash, Silica Fume, Slag and other Mineral By-products in Concrete, ACI SP-132, 1, 577~590, Amer. Concr. Ins., Detroit, USA, 1992.
11. S. Daimond, “Intimate association of coal particles and inorganic spheres in fly ash”, Cem. Concr. Res., 12, 405~407, 1982.
12. P. K. Metha, “Pozzolanic and cementitious by-products as mineral admixtures for concrete--A critical review”, Fly Ash, Silica Fume, Slag and other Mineral By-products in Concrete, ACI SP-79, 1, 1~46, Amer. Concr. Ins., Detroit, USA, 1983.
13..S. Chatterji, A. D. Jensen, N. Thaulow, P. Christensen, “Studies of alkali silica reaction part3. mechanisms by which NaCl and Ca(OH)2 affect the reaction”, Cem. Concr. Res., 16, 246~254, 1986.
14. S. Remond, P. Pimienta, D. P. Bentz, “Effects of the incorporation of municipal solid waste incineration fly ash in cement pastes and mortars I. experimental study”, Cem. Concr. Res., 32, 303~311, 2002.
15. L. Y. Robert, E. C. James, “Study of a class C fly ash concrete”, Fly Ash, Silica Fume, Slag and other Mineral By-products in Concrete, ACI SP-79, 1, 307~319, Amer. Concr. Ins., Detroit, USA, 1983.
16..S. Hanehara, K. Yamada, “Interaction between cement and chemical admixture from the point of cement hydration, absorption behavior of admixture, and paste rheology”, Cem. Concr. Res., 29, 1159~1165, 1999.
17. K. Ogawa, H. Uchikawa, K. Takemoto, “The Mechanism of the hydration in the system C3S-pozzolana”, Cem. Concr. Res., 10, 683~696, 1980.
18..C. Plowman, J. G. Cabrera, “Mechanism and kinetics of hydration of C3A and C4AF extracted from cement”, Cem. Concr. Res., 14, 238~248, 1984.
19. 林治強, “不同飛灰燒失量對優生混凝土工程性質之影響”, 國立台灣科技大學營建工程技術研究所碩士論文, 1998.
20. Y. Ohama, “Polymer-based admixtures”, Cem. Concr. Composites, 20, 189~212, 1998.
21. 陳慶宏, “強塑劑於高效能混凝土中之效能評估”, 國立台灣師範大學化學研究所碩士論文, 2000.
22. 陳秀娘, “石油工業廢觸媒的波索蘭活性評估與改質磺化酚醛樹脂之合成”, 國立台灣師範大學化學研究所碩士論文, 2002.
23. 吳榮修, “石油廢觸媒之反應活性及對水泥質材料性質之影響”, 國立台灣師範大學化學研究所碩士論文, 2002.
24. 葉一賢, “新型聚羧酸系強塑劑的合成與應用”, 國立台灣師範大學化學研究所碩士論文, 2002.
25..H. Uchikawa, S. Hanehara, D. Sawaki, “The role of steric repulsive forces in paste prepared with organic admixture”, Cem. Concr. Res., 27, 37~50, 1997.
26..M. Yang, C. M. Neubauer, H. M. Jennings, “Interparticle potential and sedimentation behavior of cement suspensions--review and results from paste”, Adv. Cem. Based Mater., 5, 1~7, 1997.
27..I. D. Morrison, S. Ross, “Colloidal dispersions-suspensions, emulsions, and foams”, John Wiley & Sons Inc., N. Y., USA, 2002.
28. B. G. Kim, S. Jiang, C. Jolicoeur, P. C. Aïtcin, “The adsorption behavior of PNS superplasticizer and its relation to fluidity of cement paste”, Cem. Concr. Res., 30, 887~893, 2000.
29. 郭文田, “添加強塑劑對水泥材料水化及早期行為之影響”, 國立中央大學土木研究所博士論文, 2000.
30. R. L. Rarick, J. J. Bhautty, H. M. Jennings, “Surface area measurement using gas sorption: application to cement paste”, Materials Science of Concrete, 1~39, E & FN Spon, N. Y., USA, 1995.
31..M.Yang, C. M. Neubauer, H. M. Jennings, “Interparticle potential and sedimentation behavior of cement suspensions-effect of admixtures”, Adv. Cem. Based Mater., 8, 17~27, 1998.
32. K. Yamada, T. Takahashi, S. Hanehara, M. Matsuhisa, “Effects of the chemical structure on the properties of polycarboxylate type superplasticizer”, Cem. Concr. Res., 30, 197~203, 2000.
33. S. Chandra, J. Björnström, “Influence of superplasticizer type and dosage on the slump loss of Portland cement mortars--Part II”, Cem. Concr. Res., 32, 1613~1619, 2002.
34..J. Davies, J. G. P. Binner, “The role of ammonium polyacrylate in dispersing concentrated alumina suspensions”, J. Eur. Ceram. Soc., 20, 1539~1553, 2000.
35..L. K. Filippov, “Adsorption, desorption, and exchange kinetics of mixtures on planar surfaces”, J. Colloid Interface Sci., 181, 232~251, 1996.
36. K. L. Mittal, R. D. Vold, M. J. Vold, “Adsorption at interfaces”, Division of colloid and surface chemistry at the 167th meeting of the American Chemical Society in L. A., CA., USA, 101~105, 1974.
37..H. Uchikawa, D. Sawaki, S. Hanehara, “Influence of kind and added timing organic admixture type and addition time on the composition structure, and property of fresh cement paste”, Cem. Concr. Res., 25, 353~364, 1995.
38. R. L. Hill, S. L. Sarkar, R. F. Rathbone, J. C. Hower, “An examination of fly ash carbon and its interactions with air entraining agent”, Cem. Concr. Res., 27, 193~204, 1997.
39. 李麗偵, “化學摻料分子在水泥表面吸附之行為分子動力模擬研究”, 國立台灣師範大學化學研究所碩士論文, 1999.
40..I. Tanaka, N. Suzuki, Y. Ono, M. Koishi, “Fluidity of spherical cement and mechanism for creating high fluidity”, Cem. Concr. Res., 28, 63~74, 1998.
41..T. Zhang, S. Shang, F. Yin, A. Aishah, A. Salmiah, T. L. Ooi, “Adsorptive behavior of surfactants on surface of Portland cement”, Cem. Concr. Res., 31, 1009~1015, 2001.
42. K. Yoshioka, E. Tazawa, K. Kawai, T. Enohata, “Adsorption characteristics of superplasticizers on cement component minerals”, Cem. Concr. Res., 32, 1507~1513, 2002.
43..B. M. Moudgil, T. S. Prakash, “Competitive adsorption of polymer and surfactants on solid substrates”, Colloids and Surfaces A, 133, 93~97, 1998.
44. K.Yamada, S. Ogawa, S. Hanehara, “Controlling of the adsorption and dispersing force of polycarboxylate-type superplasticizer by sulfate ion concentration in aqueous phase”, Cem. Concr. Res., 31, 375~383, 2001.
45. I. Aiad, S. A. E. Aleem, H. E. Didamony, “Effect of delaying addition of some concrete admixtures on the rheological properties of cement paste”, Cem. Concr. Res., 32, 1839~1843, 2002.
46. T. Serizawa, S. Kamimura, M. Akashi, “Electrostatic adsorption of polystyrene particles with different surface charges onto the surface of an ultrathin polymer film”, Colloids and Surfaces A, 164, 237~245, 2000.
47..D. Bonen, S. L. Sarkar, “The superplasticizer adsorption capacity of cement pastes, pore solution composition, and parameters affecting flow loss”, Cem. Concr. Res., 25, 1423~1434, 1995.
48. Y. M. Zhang, T. J. N. Munn, “Effects of particle size distribution, surface area and chemical composition on Portland cement strength”, Powder Tech., 83, 245~252, 1995.
49..S. Hanehara, F. Tomosawa, M. Kobayakawa, K. R. Hwang, “Effects of water/powder ratio mixing ratio of fly ash and curing temperature on pozzolanic reaction of fly ash in cement paste”, Cem. Concr. Res., 31, 31~39, 2001.
50..M. Cyr, C. Legrand, M. Mouret,“Study of the shear thickening effect of superplasticizers on the rheological behavior of cement pastes containing or not mineral additives”, Cem. Concr. Res., 30, 1477~1483, 2000.
51. W. Aiqin, Z. Chengzhi, Z. Ningsheng, “Study of the influence of the particle size distribution on the properties of cement”, Cem. Concr. Res., 27, 685~695,1997.
52. K. Erdoğdu, P. Türker, “Effects of fly ash particle size on strength of Portland cement fly ash mortars”, Cem. Concr. Res., 28, 1217~1222,1998.
53. G. G. Lim, S. S. Hong, D. S. Kim, B. J. Lee, J. S. Rho, “Slump loss control of cement paste by adding polycarboxylic type slump-releasing dispersant”, Cem. Concr. Res., 29, 223~229, 1999.
54. P. J. Andersen, D. M. Roy, “The effect of superplasticizer molecular weight on its adsorption on, and dispersion of, cement”, Cem. Concr. Res., 18, 980~986, 1988.
55. P. J. Andersen, D. M. Roy, “The effect of adsorption of superplasticizer on the surface of cement”, Cem. Concr. Res., 17, 805~813, 1987.
56..J. C. Cunningham, B. L. Dury, T. Gregory, “Adsorption characteristics of sulphonated melamine formaldehyde condensates by high performance size exclusion chromatography”, Cem. Concr. Res., 19, 919~926, 1989.
57. V. M. Malhotra, “Developments in the use of Superplasticizer”, Amer. Concr. Ins., 1981.
58..S. Chandra, P. Flodin, “Interactions of polymers and organic admixtures on Portland cement hydration”, Cem. Concr. Res., 17, 875~890, 1987.
59..G. D. Parfitt, C. H. Rochester, “Adsorption from solution at the solid/liquid interface”, Academic press inc. LTD., London, UK, 153~164, 1983.
60. 王檻勝, “水泥性質對強塑劑使用成效影響之研究”, 國立中央大學土木工程研究所碩士論文, 1994.
61. D. L. Pavia, G. M. Lampman, G. S. Kriz, “introduction to spectroscopy”, Saunders College, FL., USA, 1996.
62. C. S. Poon, L. Lam, Y. L. Wong, “A study on high strength concrete prepared with large volumes of low calcium fly ash”, Cem. Concr. Res., 30, 447~455, 2000.