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纳米二氧化硅掺量对混凝土冻结温度的影响

李蒙恩 秦艳慧 尹金帅 郑子昊 马浩原 李硕

硅酸盐通报2026,Vol.45Issue(5):1536-1544,9.
硅酸盐通报2026,Vol.45Issue(5):1536-1544,9.DOI:10.16552/j.cnki.issn1001-1625.2025.0991

纳米二氧化硅掺量对混凝土冻结温度的影响

Effect of Nano-Silica Content on Freezing Temperature of Concrete

李蒙恩 1秦艳慧 1尹金帅 1郑子昊 1马浩原 1李硕1

作者信息

  • 1. 青岛理工大学土木工程学院,青岛 266520
  • 折叠

摘要

Abstract

Currently,research on the freeze-thaw durability of nano-silica(NS)enhanced concrete primarily focuses on the influence of different NS content,while quantitative studies on the freezing temperature of NS-modified concrete are still lacking.Although existing theories and mechanistic studies suggest that NS may lower the freezing temperature of concrete,experimental data and quantitative analyses are still relatively scarce.In this work,physical experiments were conducted to measure the temperature variation curves of C40 concrete with different NS content,and the freezing temperature was quantitatively characterized.Microscopic analysis of the pore structure was performed using the nuclear magnetic resonance(NMR)technology.The results show that within the experimental content range(0%,1%,2%,and 3%,mass fraction),the freezing temperature of concrete decreases significantly with increasing NS content.When the NS content is 2%,the optimization effect on the pore structure is most remarkable,and the relative reduction in freezing temperature is most pronounced,particularly as the NS content increases from 1%to 2%.The results of this study supplement the research on the effect of NS on the freezing temperature of concrete,provide a reference for further investigation into the freeze-thaw damage mechanism of NS-modified concrete,and offer a basis for optimizing NS content in concrete engineering in different cold regions.

关键词

纳米二氧化硅/混凝土/冻结温度/动态温度测量/核磁共振/孔隙结构

Key words

nano-silica/concrete/freezing temperature/dynamic temperature measurement/nuclear magnetic resonance/pore structure

分类

建筑与水利

引用本文复制引用

李蒙恩,秦艳慧,尹金帅,郑子昊,马浩原,李硕..纳米二氧化硅掺量对混凝土冻结温度的影响[J].硅酸盐通报,2026,45(5):1536-1544,9.

基金项目

山东省面上基金项目(ZR2023MD036) (ZR2023MD036)

山东省高等学校青年教师创新团队(2022KJ310) (2022KJ310)

硅酸盐通报

1001-1625

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