裂缝再生骨料混凝土中氯离子扩散行为的介观数值模拟

IF 2.6 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Jing Liu
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引用次数: 0

摘要

众所周知,再生骨料混凝土(RAC)的开裂会促进氯离子的扩散,加速 RAC 中预埋钢筋的腐蚀。为揭示开裂情况下氯离子在 RAC 中的扩散机理,提出了氯离子在 RAC 中扩散的多相介观模型。需要指出的是,RAC 被视为由粗骨料、钢筋、新旧砂浆、新旧界面过渡区(ITZ)、裂缝和损伤区组成的八相复合材料。进一步研究了裂缝和损伤区的宽度和深度对开裂后 RAC 中氯离子扩散行为的影响。数值模拟结果表明,损伤区加速了氯化物的扩散,加剧了氯化物在裂缝尖端的累积效应。与裂纹深度相比,RAC 的裂纹宽度对氯化物扩散行为的影响较小,尤其是裂纹宽度小于 50 µm。更重要的是,数值模拟产生的氯化物扩散流线揭示了裂纹促进氯化物扩散的机理。本文的研究通过揭示氯离子在 RAC 中的扩散行为,为 RAC 的耐久性设计提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mesoscopic numerical simulation of chloride diffusion behavior in cracked recycled aggregate concrete
The cracking of recycled aggregate concrete (RAC) is well known to promotes the chloride diffusion, accelerates the corrosion of reinforcement embedded in RAC. To reveal the mechanism of chloride diffusion in RAC under cracking, a multiphase mesoscopic model for chloride diffusion in RAC was proposed. It should be noted that RAC is regarded as eight-phase composite materials consisting of coarse aggregate, reinforcement, new and old mortar, new and old interface transition zones (ITZ), cracks, and damage zones. The effects of the width and depth of cracks and damage zones on chloride diffusion behavior in RAC after cracking were further investigated. The numerical simulation results show that the damage zones accelerate the chloride diffusion and exacerbates the accumulation effect of chloride at the crack tip. Compared to the crack depth, the crack width of RAC has a small effect on chloride diffusion behavior, especially, the crack width is less than 50 µm. More importantly, the chloride diffusion streamline generated by numerical simulation reveals the mechanism of cracks promoting chloride diffusion. The research in this paper provides new insights into the durability design of RAC by revealing the diffusion behavior of chloride ions in RAC.
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来源期刊
Frontiers in Materials
Frontiers in Materials Materials Science-Materials Science (miscellaneous)
CiteScore
4.80
自引率
6.20%
发文量
749
审稿时长
12 weeks
期刊介绍: Frontiers in Materials is a high visibility journal publishing rigorously peer-reviewed research across the entire breadth of materials science and engineering. This interdisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers across academia and industry, and the public worldwide. Founded upon a research community driven approach, this Journal provides a balanced and comprehensive offering of Specialty Sections, each of which has a dedicated Editorial Board of leading experts in the respective field.
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