期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

水泥净浆、砂浆及混凝土早期收缩与内部湿度发展分析 被引量:31

Development of Shrinkage and Internal Moisture in Cement Paste,Mortar and Concrete at Early Age
在线阅读 下载PDF
导出
摘要 采用早龄期混凝土变形与内部湿度测量装置,测量了水泥净浆、砂浆和混凝土的自由变形及内部湿度变化规律.结果显示:水泥净浆、砂浆和混凝土早期变形均具有先膨胀后收缩的特征,膨胀结束点之后的变形为有效变形;3种水泥基材料的早期收缩随龄期的发展遵循双阶段模式,即早期的快速发展期(阶段Ⅰ)和随后的缓慢发展期(阶段Ⅱ);在阶段Ⅰ,3种材料收缩差异不大,骨料对收缩变形的约束作用主要体现在阶段Ⅱ;最终混凝土收缩最小,砂浆次之,水泥净浆最大.从浇筑开始,材料内部湿度经历早期的水气饱和期(相对湿度RH=100%)和随后的湿度下降期,湿度下降的起始点基本与收缩发展阶段Ⅱ起始点相对应,表明阶段Ⅱ的收缩与内部湿度下降密切相关.收缩变形的双阶段模式及其与湿度发展的对应关系揭示了水泥基材料早期变形机制由化学减缩控制到湿度控制的转换过程. The development of free deformation and internal moisture in cement paste,mortar and concrete were experimentally investigated.The results show that the deformations of cement paste,mortar and concrete at early age all exhibit plastic swelling at initial several hours after casting and then shrinking with a gradually reduced rate.The end point of swelling may be corresponding to the transformation point of plastic state to solid state and this point can be defined as setting time of the cement based materials.The development of shrinkage starting from setting point of the three kinds of cementitious materials exhibits at first a fast developing stage(stageⅠ) and is followed by a relatively slow developing stage(stageⅡ). The restraint effect of aggregates on shrinkage is significant only in the stageⅡ.In stageⅠa similar shrinkage values are observed on the three kinds of materials.The development of moisture inside cement paste,mortar and concrete can be described as a vapor saturated stage with saturated moisture followed by a stage in that internal moisture is gradually reduced.The shrinkage developed within stageⅡcan well correlate to the reduction of internal moisture.
作者 张君 陈浩宇 侯东伟
机构地区 清华大学结构工程安全与耐久教育部重点实验室 清华大学土木工程系
出处 《建筑材料学报》 EI CAS CSCD 北大核心 2011年第3期287-292,共6页 Journal of Building Materials
基金 国家自然科学基金资助项目(50978143) 国家重点基础研究发展规划(973计划)项目(2009CB623200)
关键词 水泥净浆 砂浆 混凝土 收缩 内部湿度 cement paste mortar concrete shrinkage internal moisture
分类号 TU528.01 [建筑科学—建筑技术科学]
  • 相关文献

参考文献14

  • 1HASHIDA H,YAMAZAKI N. Deformation composed of au- togenous shrinkage and thermal expansion due to hydration of high strength concrete and stress in reinforced structures[C] //Proceedings of Third International Research Seminar on Self-desiccation in Concrete. Lund : [s. n.],2002 : 77-93.
  • 2巴恒静,高小建,杨英姿.高性能混凝土早期自收缩测试方法研究[J].工业建筑,2003,33(8):1-4. 被引量:78
  • 3KOVLER K,ZHUTOVSKY S. Overview and future trends of shrinkage research[J]. Materials and Structures, 2006,39 (9) : 827-847.
  • 4高小建,巴恒静,马保国.混凝土早期自收缩、强度与水泥水化率的关系[J].工业建筑,2006,36(2):64-67. 被引量:19
  • 5田倩,孙伟,缪昌文,刘加平.高性能混凝土自收缩测试方法探讨[J].建筑材料学报,2005,8(1):82-89. 被引量:66
  • 6安明酤.高性能混凝土自收缩研究[D].北京:清华大学,1999.
  • 7TAZAWA E, MIYAZAWA S. Influence of cement and admix- ture on autogenous shrinkage of cement paste[J]. Cement and Concrete Research,1995,25(7) ,281-287.
  • 8KAMEN A, DENARIE E, SADOUKI H, et al. Thermo-me chanical response of UHPFRC at early age Experimental study and numerical simulation[J]. Cement and Concrete Re search,2008,38(6) :822-831.
  • 9SULE M, van BREUGEL V K. Cracking behavior of rein forced concrete subjected to early-age shrinkage[C]// Pro- ceeding of the International RILEM Workshop. Paris;[s. n.],2008:417-433.
  • 10BENTUR A, IGARASHI S, KOVLER K. Prevention of au- togenous shrinkage in high-strength concrete by internal cu ring using wet lightweight aggregates[J]. Cement and Con-crete Research,2001,31(11) : 1587-1591.

二级参考文献46

  • 1叶青.高强混凝土的收缩及其补偿机理[J].混凝土与水泥制品,1997(1):20-23. 被引量:18
  • 2GB/T 50080-2002.普通混凝土拌合物性能试验方法标准[S].北京:中华人民共和国建材行业标准,2003.GB/T 50080-2002.
  • 3AMZLANE S.Setting time determination of cementitious materials based on measurements of the hydraulic pressure variations[J].Cem Concr Res,2006,36(2):295-304.
  • 4KAMEN A,DENARIE E,SADOUKI H,et al.Thesmo-mechanical response of UHPFRC at early age-experimental study and numerical simulation[J].Cem Concr Res,2008,38(6):822-831.
  • 5SULE M,van BREUGEL V K.Cracking behavior of reinforced concrete subjected to early-age shrinkage[A]//Baroghel-Botmy V,AITCIN P C Eds.Proceeding of the International RILEM Workshop,2008:417-433.
  • 6BENTUR A,IGARASHI S,KOVLER K.Prevention of autogenous shrinkage in high-strength concrete by internal curing using wet lightweight aggregates[J].Corn Concr Res,2001,31(11):1587-1591.
  • 7BAROGHEL-BOUNY V,MAINGUY M,LASSABATERE T,et al COUSSY,O.,Characterization and identification of equilibrium and transfer moisture properties for ordinary and high-performance cemantitious materials[J].Cem concr Res,1999,29(8):1225-1238.
  • 8AITCIN P C,NEVILLE A M,ACKER P.Integrated view of shrinkage deformation[J].Concr Int,1977,19(9):35-41.
  • 9MEHTA P K.Concrete Structure,Properties,and Materials[M].Prentice-Hall,New Jersey:Englewood Cliffs 1986.
  • 10Bazant Z P.Caeep and Shrinkage Prediction Model for Analysis and Design of Concrete Structures —Model B3 .Mat.Struct., 1995,28(180) :357 ~ 365.

共引文献215

同被引文献295

引证文献31

二级引证文献168

建筑材料学报
2011年 第3期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部