Tensile performance of pre-cracked UHPC under the coupled actions of sustained loading and corrosive media

Cement and Concrete Composites Pub Date : 2024-12-25 DOI:10.1016/j.cemconcomp.2024.105915

Yiming Yao, Gan Wu, Kaimeng Yang, Hongrui Zhang, Jianan Qi, Yuqing Hu, Jingquan Wang, Hongyu Zhou

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Abstract

This study investigated the tensile performance of pre-cracked ultra-high performance concrete (UHPC) subjected to sustained loading and various environmental conditions, including air, water, and a 3% NaCl solution. The findings indicated that prolonged tensile loading significantly reduced the tensile properties of UHPC, particularly at higher stress levels. Interestingly, the presence of water and NaCl solution facilitated recovery and, in some instances, even enhanced the mechanical properties of the cracked UHPC specimens beyond their original values. Microstructural analyses using SEM and EDS revealed that hydration products, predominantly C-S-H gel and CaCO₃, improved the bonding between steel fibers and the UHPC matrix. These products effectively filled the cracks and refined the overall microstructure. The results underscored the significant influence of stress levels and environmental exposure on the performance of UHPC in service, highlighting the necessity of considering these factors in the design and application of UHPC to ensure long-term structural integrity and durability.

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预裂UHPC在持续载荷和腐蚀介质耦合作用下的拉伸性能

本研究研究了预裂超高性能混凝土（UHPC）在持续加载和各种环境条件下的拉伸性能，包括空气、水和3% NaCl溶液。研究结果表明，长时间的拉伸载荷显著降低了UHPC的拉伸性能，特别是在较高的应力水平下。有趣的是，水和NaCl溶液的存在有助于恢复，在某些情况下，甚至使破裂的UHPC试样的力学性能超出其原始值。SEM和EDS的微观结构分析表明，水化产物（主要是C-S-H凝胶和CaCO3）改善了钢纤维与UHPC基体之间的结合。这些产品有效地填补了裂纹，改善了整体微观结构。研究结果强调了应力水平和环境暴露对UHPC服役性能的显著影响，强调了在UHPC的设计和应用中考虑这些因素以确保长期结构完整性和耐久性的必要性。

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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Cement and Concrete Composites

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