Effect of Phosphorus and Fluorine on Hydration Process of Tricalcium Silicate and Tricalcium Aluminate 被引量：1

Effect of Phosphorus and Fluorine on Hydration Process of Tricalcium Silicate and Tricalcium Aluminate

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摘要 By means of hydration heat, XRD and SEM, effect of phosphorus and fluorine （P205 and F-） in phosphorous slag on hydration process of tricalcium silicate （C3S） and tricalcium aluminate （C3A） was explored. The results indicated that the early hydration exothermic rate of C3S and C3A was obviously lowered by P205 and F- in phosphorous slag, the second peak occurring time of C3A was delayed by 0.9 h, the exothermal output of C3S was reduced by 25.04% and the time of accelerating stage was postponed by 0.86 h. The early hydration degree of C3S and C3A was also decreased. Due to the influence of P205 and F, more pores and thinner crystals can be observed in the microstructure of hardened paste and the chance of cracks was reduced. By means of hydration heat, XRD and SEM, effect of phosphorus and fluorine （P205 and F-） in phosphorous slag on hydration process of tricalcium silicate （C3S） and tricalcium aluminate （C3A） was explored. The results indicated that the early hydration exothermic rate of C3S and C3A was obviously lowered by P205 and F- in phosphorous slag, the second peak occurring time of C3A was delayed by 0.9 h, the exothermal output of C3S was reduced by 25.04% and the time of accelerating stage was postponed by 0.86 h. The early hydration degree of C3S and C3A was also decreased. Due to the influence of P205 and F, more pores and thinner crystals can be observed in the microstructure of hardened paste and the chance of cracks was reduced.

作者郭成洲

机构地区 School of Materials Science and Engineering

出处《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2012年第2期333-336,共4页 武汉理工大学学报（材料科学英文版）

基金 Funded by the National Natural Science Foundation of China (No.50802067)

关键词 phosphorous slag tricalcium silicate （C3S） tricalcium aluminate （C3A） hydration heat hydration process phosphorous slag tricalcium silicate （C3S） tricalcium aluminate （C3A） hydration heat hydration process

分类号 O611.3 [理学—无机化学]

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1Mostafa N Y, EI-Hemaly S A S, AI-Wakeel E 1, et al. Characterization and Evaluation of the Hydraulic Activity of Water-cooled Slag and Air- cooled Slag [J]. Cement and Concrete Research, 2001, 31 : 899-904.
2Li D X, Chert L, Xu Z Z, et al. A Blended Cement Containing Blast Furnace Slag and Phosphorous Slag [J]. downal of Wuhan Unirersity qfTechno/ogy-Maten Sci. Eel., 2002, 17(2): 62-65.
3Cheng L, Sheng G H, Pi Y L, et al. Retarding Mechanism of Phosp- horus Slag on Cement[J]. Cement, 2005, 12(4): 40-44.
4Buchwald A, Tatarin R, Stephan D. Reaction Progress of Alkaline- activated Metakaolin-ground Granulated Blast Furnace Slag Blends[J]. Journal ?['materials science 2009, (44): 5 609-5 617.
5Sakulich A R, Anderson E, Schauer C L, et al. Influence of Si:AI Ratio on the Microstructural and Mechanical Properties of a Fine-limestone Aggregate Alkali-activated Slag Concrete[J]. Materialx and Structures. 2010, 44(7): 1 025-1 035.
6Li D X, Shen J L The Influence of Fast-setting/Early-strength Agent on High Phosphorous Slag Content Cement [J]. Cement and Concrete Research, 2001, 31 (1): 19-24.
7Yang X G, Ni W, Zhang X F, et al. Effect of Alkali-activation on Aluminosilicate-based Cementitious Materials[J], Journal of Universi' of Science and Technology Beijing. 2008, 15(6): 796-801.
8Chen X, Fang K H, Yang I-I Q, et al. Hydration Kinetics of Phosphorus Slag-cement Paste[J]. Journal of Wuhan University f Technology- Mater Sci. Ed., 201 I, 26(1): 142-146.
9Xu X, Lu Z Y, Yan Y. Effect of Phosphorus Slag on Hydration Character of Portland Cement[J]. Materials Guidance, 2008, 22(12): 316-318.
10Wesselsky A, Jensen O M. Synthesis of Pure Portland Cement Phases [J]. Cement and Concrete Research, 2009, 39:973-980.

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4Yu B, Lu Q, Yang J. Evaluation of anti-reflective cracking measures by laboratory test[ J]. International Journal of Pavement Engineering, 2013, 14(6) : 553- 560.
5Taher M A. Influence of thermally treated phosphogyp- sum on the properties of Portland slag cement[ J]. Re- sources, Conservation and Recycling, 2007, 52 ( 1 ) : 28-38.
6Akin A I, Sert Y. Utilization of weathered phospho- gypsum as set retarder in Portland cement [ J ]. Ce- ment and Concrete Research, 2004, 34 (4): 677- 680.
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1连载128：氟气；氟（F2），Fluorine[J].化工安全与环境,2002,15(2):16-16.
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2012年第2期

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Effect of Phosphorus and Fluorine on Hydration Process of Tricalcium Silicate and Tricalcium Aluminate 被引量：1

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