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水泥基复合材料有效孔隙的试验研究与定量表征 被引量:3

EXPERIMENTAL STUDY AND QUANTITATIVE CHARACTERIZATION OF EFFECTIVE POROSITY IN CEMENT-BASED COMPOSITE MATERIALS
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摘要 为了研究水泥基复合材料传输与孔结构的定量关系,采用二次进汞的方法,系统研究了水灰比为0.23,0.35,0.53的硬化浆体在28 d的孔结构参数。研究表明:二次进汞的方法能很好表征有效孔结构参数,其中有效孔隙率是总孔隙率的25%~50%;由孔径分布曲线可知,水灰比为0.53时出现双峰,第一个峰值对应的是毛细孔的临界孔径,第二个峰值对应于凝胶孔的临界孔径,随水灰比的降低,第一峰值逐渐消失;0.23,0.35,0.53浆体对应的第一峰值分别是0.053,0.062,0.077μm。 The method of the second intrusion mercury in MIP is used to investigate the pore characteristics of hardened cement paste with water to cement ratio(w /c) 0.23,0.35 and 0.53 respectively,in order to research the quantitative relationship between transport properties and pore characteristics in cement-based composite materials.The results show the second intrusion mercury could well determine the effective pore characteristics,and effective porosity accounts for 25% to 50% of total porosity in cement paste.At the same time,The existence of the first and second peak in the MIP pore size distribution curves is confirmed,such as,the first peak in hardened cement paste with water to cement ratio 0.53 is very distinct,however,with the decrease of water to cement ratio,the first peak gradually disappears.The pore diameter corresponding to the first and second peak is critical pore diameter of capillary pore and gel pore,respectively.The first peak value of hardened cement paste with w /c 0.23,0.35 and 0.53,respectively,is 0.053,0.062 and 0.077 μm.
作者 孙国文 孙伟 蒋金洋 王彩辉
机构地区 江苏省土木工程材料重点实验室东南大学
出处 《工业建筑》 CSCD 北大核心 2010年第11期98-101,共4页 Industrial Construction
基金 国家高技术发展计划(863)资助项目(2008AA030704)
关键词 水泥基复合材料 压汞 二次进汞 孔隙特征 有效孔隙率 cement-based composite materials mercury intrusion porosimetry(MIP) second intrusion mercury pore characteristics effective porosity
分类号 TU528 [建筑科学—建筑技术科学]
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参考文献6

  • 1Guang Ye, Hu J, Breugel K Van, et al. Characterization of the Development of Microstructure and Porosity of Cement-Based Material By Numerical Simulation and ESEM Image Analysis[ J]. Materials and Structures, 2002, 35 (10) :603 - 613.
  • 2Rakesh Kumara, Bhattacharjee B. Assessment of Permeation Quality of Concrete Through Mercury Intrusion Porosimetry [ J ]. Cement and Concrete Research, 2004, 34(2) 321:328.
  • 3Han Young Moon, Hong Sam Kim. Relationship Between Average Pore Diameter and Chloride Diffusivity in Various Concretes [ J]. Construction and Building Materials, 2006, 20 (9) : 725 - 732.
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同被引文献26

  • 1Moro F, B?hni H. Ink-bottle effect in mercury intrusion porosimetry of cement-based materials [J]. Journal of Colloid and Interface Science, 2002, 246(1): 135-149.
  • 2Kaufmann J. Pore space analysis of cement-based materials by combined nitrogen sorption-woods metal impregnation and multi-cycle mercury intrusion [J]. Cement and Concrete Composites, 2010, 32(7): 514-522.
  • 3Zhou J, Ye G, Breugel K V. Characterization of pore structure in cement-based materials using pressurization-depressurization cycling mercury intrusion porosimetry(PDC-MIP)[J]. Cement and Concrete Research, 2010, 40(7): 1120-1128.
  • 4Kaufmann J, Loser R, Leemann A. Analysis of cement-bonded materials by multi-cycle mercury intrusion and nitrogen sorption [J]. Journal of Colloid and Interface Science, 2009, 336(2): 730-737.
  • 5Liu Z, Winslow D. Sub-distributions of pore size: a new approach to correlate pore structure with permeability [J]. Cement and Concrete Research, 1995, 25(4): 769-778.
  • 6Galle C. Effect of drying on cement-based materials pore structure as identified by mercury intrusion porosimetry: a comparative study between oven-, vacuum-, and freeze-drying [J]. Cement and Concrete Research, 2001, 31(10): 1467-1477.
  • 7Kumar R, Bhattacharjee R. Study on some factors affecting the results in the use of MIP method in concrete research [J]. Cement and Concrete Research, 2003, 33(3): 417-424.
  • 8Diamond S. Mercury porosimetry:an inappropriate method for the measurement of pore size distributions in cement-based materials [J]. Cement and Concrete Research, 2000, 30(10): 1517-1525.
  • 9Gao Z Y, Hu Q H. Estimating permeability using median pore- throat radius obtained from mercury intrusion porosimetry I-J]. Journal of Geophysics and Engineering, 2013(10):1-7.
  • 10Katrin 1~, Dirk H. Characterization of Mineral Building Materials by Mercury-Intrusion Porosimetry[J]. Part Syst Charact, 2006 (23) :20-28.

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工业建筑
2010年 第11期

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