单轴受压混凝土的微裂缝和氯离子侵入性

采用1种无破损微裂缝估算指标-比裂缝面积来评价单轴压力作用下混凝土棱柱体的扩展微裂缝。加压卸载后试块暴露于氯离子环境中,测得试块中的氯离子含量分布。分析了单轴压力下混凝土微裂缝的发展以及荷载、微裂缝和氯离子渗透性的相关规律。试验结果表明,在大约0.3的应力水平范围内,受压并卸载后的试块表观氯离子扩散系数普遍降低,但随着应力水平的继续提高,氯离子扩散性能开始提高并超过未加载时的氯离子扩散系数。混凝土在单轴受压并卸载的情况下,其微裂缝的发展和恢复与应力水平关系密切。比裂缝面积能够较好地表征混凝土中微裂缝的发展,有助于分析混凝土在荷载作用下产生的微裂缝对氯离子传输性能的影响。

Microcracking and Chloride Penetration of Concrete under Uniaxial Compression

A non-destructive method of evaluation of specific crack area was used to characterise microcracking in concrete prisms during uniaxial compression loading and unloading. Chloride profiles were also measured after the same concretes were exposed to chloride environment. The relation among microcracking, stress-strength ratio and chloride penetration of concrete were analysed based on the experimental results. Under compressive load, the apparent chloride diffusion coefficient decreases until about one third of the ultimate load. Further increase of compressive load improves the chloride diffusion coefficient again. There is a close link between microcracking and stress-strength ratio. The index of specific crack area can be used to indicate the microcracking and study chloride transport behaviour into concrete under the influence of microcracking.