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微米和纳米Al2O3对水泥基材料力学与耐久性的影响
引用本文:吴福飞,董双快,赵本容,刘春梅,何星星. 微米和纳米Al2O3对水泥基材料力学与耐久性的影响[J]. 长江科学院院报, 2020, 37(5): 163-169. DOI: 10.11988/ckyyb.20190129
作者姓名:吴福飞  董双快  赵本容  刘春梅  何星星
作者单位:贵州师范大学 材料与建筑工程学院, 贵阳 550025
基金项目:贵州科技厅-贵州师范大学联合基金项目(黔科合LH字7351);贵州省教育厅青年科技人才成长项目(黔教合KY字125);贵州师范大学 2016 年博士科研启动项目(0517073);贵州省科学技术基金项目(黔科合LH字7046号, 黔科合J字LKS41号)
摘    要:为了明确微米和纳米Al2O3对水泥基材料力学性能与耐久性的改性作用,采用细度分别为1 μm和10 nm的Al2O3替代水泥,制备低水胶比水泥基材料。通过宏观和微观测试手段,分析微米和纳米Al2O3对水泥基材料力学性能与耐久性的影响规律,并探析其作用机理。试验表明:掺量为0.5%~4.0%的微米Al2O3和纳米Al2O3能增强水泥基材料的力学性能,降低其干燥收缩;0.5%~2.0%微米Al2O3和0.5%~4.0%纳米Al2O3能降低水泥基材料的渗透系数,但4.0%微米Al2O3会增大水泥基材料的渗透系数。相对而言,纳米Al2O3对水泥基材料的改性作用优于微米Al2O3。电镜扫描和文献研究结果发现,纳米Al2O3和微米Al2O3在水泥基材料水化、硬化过程中发挥尺寸效应、填充效应和表面活性效应,进而达到增强水泥基材料的力学性能和耐久性的目的。研究成果为水泥基材料的改性提供试验基础。

关 键 词:水泥基材料  微米Al2O3  纳米Al2O3  改性  力学性能  耐久性  作用机理  
收稿时间:2019-02-11

Effects of Micron-Al2O3 and Nano-Al2O3 on Mechanical Properties andDurability of Cement-based Material
WU Fu-fei,DONG Shuang-kuai,ZHAO Ben-rong,LIU Chun-mei,HE Xing-xing. Effects of Micron-Al2O3 and Nano-Al2O3 on Mechanical Properties andDurability of Cement-based Material[J]. Journal of Yangtze River Scientific Research Institute, 2020, 37(5): 163-169. DOI: 10.11988/ckyyb.20190129
Authors:WU Fu-fei  DONG Shuang-kuai  ZHAO Ben-rong  LIU Chun-mei  HE Xing-xing
Affiliation:School of Materials and Architectural Engineering, Guizhou Normal University, Guiyang 550025, China
Abstract:By replacing cement with Al2O3 of 1 μm and 10 nm, respectively, cement-based materials with low water-binder ratio were prepared for researching the modification effect of micron-Al2O3 and nano-Al2O3 on the mechanical properties and durability of cement-based material. Macro-and-microscopic approaches were adopted to examine the change law of mechanical performance and durability and to analyze the modification mechanism. Results demonstrated that both micron-Al2O3 and nano-Al2O3 at a dosage of 0.5%-4.0% could enhance the mechanical performance while reducing the drying shrinkage of cement-based material. Micron-Al2O3 at a dosage of 0.5%-2.0% or nano-Al2O3 at a dosage of 0.5%-4.0% could reduce the permeability coefficient; however, a 4.0% micron-Al2O3 would increase the permeability coefficient. The modification effect of nano-Al2O3 is superior to that of micron-Al2O3. SEM result and previous research findings prove that in the process of cement-based material’s hydration and hardening, micron-Al2O3 and nano-Al2O3 ameliorate the mechanical performance and durability through size effect, filling effect and surface activity effect.
Keywords:cement-based material  micron-Al2O3  nano-Al2O3  modification  mechanical properties  durability  mechanism  
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