文章摘要
新型超高性能混凝土的抗压性能及其砂浆体的孔结构分析
The compressive property and the mortar’s pore structure of new ultra-high performance concrete
  
DOI:
中文关键词: 超高性能混凝土  超细水泥  抗压性能  压汞法  孔结构
英文关键词: ultra-high performance concrete  superfine cement  compressive property  mercury porosimetry  pore structure
基金项目:流域水循环模拟与调控国家重点实验室开放基金(IWHR-SKL-201204)
作者单位
肖锐1,邓宗才1,申臣良2,陈相宇3 1. 北京工业大学 建筑工程学院,北京 100124
2. 北京易成-拉法基混凝土有限公司,北京 100176
3.上海贝卡尔特-二钢有限公司,上海 200131 
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中文摘要:
      采用超细水泥制备了新型超高性能混凝土,试验研究了材料在不同养护条件下的抗压性能,并采用压汞法分析了其砂浆体的孔结构.试验结果表明,高温养护下材料的抗压强度比常温养护明显提高;SC-RPC砂浆体在孔径小于50 nm区间内,孔容积越小,对应的SC-RPC立方体试块抗压强度越高;孔体积测试结果偏离实际情况可能由样品制备时冲击力下产生的裂缝导致;高温养护的SC-RPC砂浆体试样的总孔比表面积明显低于常温养护的试样.
英文摘要:
      A new type of ultra-high performance concrete with superfine cement called SC-RPC was prepared. The compressive property of SC-RPC under different curing conditions was tested, and the pore structure of its mortar was studied by mercury porosimetry. The test results show that the compressive strength of SC-RPC cured in high temperature is much higher than in room temperature; the SC-RPC mortar’s total pore volume below 50 nm is smaller, the corresponding compressive strength of SC-RPC is higher; the discrepancy of the total pore volume of SC-RPC mortars may be caused by the impact force generated in the sample preparation process; the total surface area of SC-RPC mortar in high temperature is obviously lower than in room temperature.
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