The flexural mechanical properties and mesoscopic mechanisms of fracture failure of HPC with ASR inhibition measures under prolonged alkaline solution immersion

IF 2.6 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Frontiers in Materials Pub Date : 2024-07-04 DOI:10.3389/fmats.2024.1407922
Juan Guo, Weifeng Liu, Jianbo Guo, Hongfa Yu, Haiyan Ma, Jun Yan, Qinghua Tao, Weiquan Gao, Meng Zhang, Fang Wang
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Abstract

The harsh geological conditions in the northwest region of China, characterized by widespread saline-alkali soil rich in alkali ions, pose a high risk of Alkali-Silica reaction (ASR) in concrete, particularly due to the presence of ASR-active natural river sands. To address ASR hazards, locally applied concrete often employs High-Performance concrete (HPC) prepared with high proportions of mineral admixtures. In this paper, the alkali content is controlled by adding mixed water with NaOH to the initial configuration of concrete, and three different alkali content states are set up. A 1 mol/L NaOH solution was used to simulate alkaline conditions, and HPC specimens were immersed for an extended period to investigate the effects of equivalent alkali content, immersion time, concrete strength, and admixture on the flexural mechanical properties of HPC under the condition of long-term alkali immersion. Results indicate that, the strength grade was positively correlated with the flexural strength of HPC, but the alkali content was negatively. Initial immersion significantly enhances strength, followed by a gradual decline after long-term immersion. Among three types of admixture addition methods, the impact on flexural strength of HPC immersed in alkaline solution for 10 years follows the order: Double doped air entraining agent and rust inhibitor is greater than single doped air entraining agent is greater than single doped rust inhibitor. In the process of macroscopic test, it is difficult to observe the variation rule of stress and strain in detail, only the final aggregate failure mode can be analyzed. In order to analyze the strain change of the specimen and the failure process of the aggregates more accurately, a three-dimensional random aggregate concrete mesoscopic model was established, and equations relating microhardness to the mechanical properties of concrete components were derived from statistical analysis, providing a basis for parameter selection in the model. Results demonstrate that with increasing strength, the occurrence time of initial cracks is delayed, and the ratio of cracks bypassing aggregates (cracks develop along the ITZ between aggregate and mortar until complete failure) decreases, and the ratio of cracks penetrating aggregates (cracks develop directly through aggregates in an almost vertical direction) increases.
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长期碱性溶液浸泡下采用 ASR 抑制措施的高密度聚碳酸酯的弯曲力学性能和断裂失效的介观机制
中国西北地区地质条件恶劣,盐碱地普遍存在,富含碱离子,混凝土中发生碱硅反应(ASR)的风险很高,特别是由于存在具有 ASR 活性的天然河砂。为解决 ASR 危险,当地应用的混凝土通常采用高性能混凝土 (HPC),并配以高比例的矿物掺合料。本文通过在混凝土初始配置中加入含 NaOH 的混合水来控制碱含量,并设定了三种不同的碱含量状态。采用 1 mol/L NaOH 溶液模拟碱性条件,对 HPC 试件进行长时间浸泡,研究等效碱含量、浸泡时间、混凝土强度和外加剂对长期碱浸泡条件下 HPC 抗折力学性能的影响。结果表明,强度等级与 HPC 的抗折强度呈正相关,而碱含量则呈负相关。初始浸泡能明显提高强度,长期浸泡后强度逐渐下降。在三种外加剂添加方法中,在碱性溶液中浸泡 10 年的 HPC 对抗折强度的影响依次为双掺引气剂和防锈剂大于单掺引气剂大于单掺防锈剂。在宏观试验过程中,很难详细观察应力和应变的变化规律,只能分析最终的骨料破坏模式。为了更准确地分析试件的应变变化和骨料的破坏过程,建立了三维随机骨料混凝土中观模型,并通过统计分析得出了微硬度与混凝土构件力学性能的相关方程,为模型中参数的选择提供了依据。结果表明,随着强度的增加,初始裂缝的出现时间会推迟,绕过集料(裂缝沿着集料和砂浆之间的 ITZ 发展,直至完全破坏)的裂缝比例会降低,而穿透集料(裂缝直接穿过集料,以几乎垂直的方向发展)的裂缝比例会增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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