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基于等温吸附的水泥基孔隙材料水分传输过程 被引量:3

Moisture Transport Based on Water Vapor Sorption Isotherm of Cement-based Porous Materials
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摘要 讨论了水泥基孔隙材料水分传输的主要机理,建立了孔隙水分传输的多相和简化模型。测试了胶凝材料含有70%矿渣的净浆和砂浆材料的等温吸附与脱附曲线(WVSI),得到了孔隙材料的水分特征曲线。利用水分传输模型对等温吸附实验脱附过程的实验数据进行回归,得到材料的本征渗透率。结果表明:在相对湿度h=60%时,两个模型的回归结果相近;在相对湿度h=18%时,两个模型的回归结果相差较大;简化模型仅适用于中等湿度(h=60%)及以上环境中水分传输过程的描述;基于等温吸附曲线数据,利用模型回归水泥基材料本征渗透率的方法基本可行。 The mechanisms on water transport in porous cement-based materials were investigated. The simplified and multi-phase models for moisture transport were proposed. The water vapor sorption isotherms(WVSI) were measured for cement pastes and mortars containing 70% GGBS in binder. The WVSI curves are converted to water characteristic curves and the intrinsic permeability of cement-based materials is regressed from the desorption process in the WVSI measurement. The results show that the simplified model and multi-phase model obtain the similar values of permeability for desorption when humidity(h)=60% while the regression values of permeability for desorption at h=18% have notable differences between the two models. The simplified model is valid for water transport at a moderate humidity(i.e., h=60%) and above. The method of determining intrinsic permeability from WVSI and moisture transport model is feasible for the indirect measurement in laboratory.
作者 张东东 庞晓贇 李克非
机构地区 教育部土木工程安全与耐久重点试验室清华大学土木工程系
出处 《硅酸盐学报》 EI CAS CSCD 北大核心 2015年第8期1024-1031,共8页 Journal of The Chinese Ceramic Society
基金 国家重点基础研究发展计划(2009CB623106) 国家自然科学基金项目(51378295)资助
关键词 水泥基材料 水分传输 本征渗透率 等温吸附 cement-based materials moisture transport intrinsic permeability water vapor sorption isotherm
分类号 TQ531 [化学工程—煤化学工程]
  • 相关文献

参考文献20

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二级参考文献40

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共引文献7

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二级引证文献15

硅酸盐学报
2015年 第8期

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