文章摘要
吴福飞, 赵振华, 董双快, 刘春梅, 周开州.纳米CuO改性水泥基材料力学与耐久性的试验研究Journal of Water Resources and Water Engineering[J].,2019,30(4):177-182
纳米CuO改性水泥基材料力学与耐久性的试验研究
Experimental study on mechanics and durability of nano-CuO modified cement-based materials
  
DOI:10.11705/j.issn.1672-643X.2019.04.28
中文关键词: 纳米CuO  力学性能  干燥收缩  渗透性能  改性水泥基材料
英文关键词: nano-CuO  mechanical property  drying shrinkage  permeability  modified cement-based materials
基金项目:贵州省教育厅青年科技人才成长项目(黔教合KY字[2018]125);贵州科技厅-贵州师范大学联合基金项目(黔科合LH字[2017])7351号;贵州师范大学 2016 年博士科研启动项目(0517073)
Author NameAffiliation
WU Fufei, ZHAO Zhenhua, DONG Shuangkuai, LIU Chunmei, ZHOU Kaizhou (贵州师范大学 材料与建筑工程学院 贵州 贵阳 550025) 
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中文摘要:
      为了明确纳米CuO对低水胶比水泥基材料力学性能和耐久性的改性作用,采用0.5%~4%纳米CuO制备水泥基材料,研究其对凝结时间、流动性、力学性能和耐久性的影响,并分析其作用机制。试验结果表明:0.5%~4.0%纳米CuO能降低低水胶比水泥基材料的凝结时间和流动性,掺量越多,其降低幅度越大;1.0%~4.0%纳米CuO能提高低水胶比水泥基材料的抗折和抗压强度,但会降低其干燥收缩和渗透性能,掺量以2%为宜;纳米CuO替代水泥后,虽不能参与水泥的二次水化,但能促进水泥的水化;综合分析发现,纳米CuO能发挥尺寸效应、微集料的填充效应和表面活性效应,达到提高水泥基材料密实度和细化孔结构的目的。因此,纳米CuO替代水泥后,能在一定程度上改性低水胶比水泥基材料的力学性能和耐久性。
英文摘要:
      In order to understand the modify mechanical properties and durability of cement-based materials with low water-binder ratio, the cement-based materials were prepared with 0.5%~4% nano-CuO, and the influence and mechanism on setting time, liquidity, mechanical properties, and durability were analyzed. The results showed that 0.5%~4.0% nano-CuO could reduce the setting time and liquidity of cement-based materials. The bigger the dosage, the more the lower amplitude. 1%~4.0% nano-CuO could improve the flexural strength and compressive strength of cement-based materials, and reduce the drying shrinkage and permeability of cement-based materials, with 2% the best. Although nano-CuO could not participate in the secondary hydration of cement, it did promote the hydration of cement; Through comprehensive analysis, we found that nano-CuO can exert size effect, filling effect of micro-aggregate and surface activity effect, which can achieve the purpose of improving the compactness of cement-based materials and refining pore structure. Therefore, we conclude that nano-CuO can modify the mechanical properties and durability of cement-based materials to a certain extent after replacing cement.
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