Investigating rebar corrosion of cement mortar and concrete with fly ash and inhibitor based on experimental and numerical tests

IF 8 1区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY

Construction and Building Materials Pub Date : 2025-09-29 DOI:10.1016/j.conbuildmat.2025.143643

Peifeng Su, Qingli Dai, Xiang Zhao

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引用次数: 0

Abstract

The corrosion of reinforcements in concrete is one of the major reasons for structure failure. This paper aims to evaluate the combined effect of fly ash and inhibitors on rebar corrosion through experimental test and numerical simulation. Different mortar samples containing ordinary Portland cement (OPC), class F fly ash (FA), and Sodium nitrite (SN) are prepared and tested. Similarly, concrete samples were prepared with OPC and FA to compare mortar results. The water-absorption percentage, rapid chloride permeability, compressive strength, and splitting tensile strength of presented mortar or concrete groups are measured to obtain the transporting and mechanical properties. The impressed current (IC) accelerated corrosion test is then performed to induce the corrosion of embedded rebar. At different corrosion durations, the corrosion potential (

E_{corr}

) and linear polarization resistance (

R_{p}

), rebar pull-out strength (

τ_{p}

), and steel mass loss of retrieved rebar are measured to reveal the corrosion development process. Result shows that the theoretical calculated steel mass loss (Faraday’s law) at early stage is higher than the gravimetric-measured values, which can be explained by low impressed current efficiency at early age due to the protection of passive layer. FA lowers the corrosion rate by reducing the chloride penetration rate and forming a denser pore structure. SN slightly increases the chloride permeability but still postpones the corrosion development due to the increased chloride concentration threshold and delayed disruption of passive layer. Numerical simulation depicts the first crack initiation and crack development associated with rust accumulation and rebar pull-out strength reduction in the crack. Overall, the findings of this research enhance the understanding of reinforcement corrosion and its detrimental effect on reinforced-concrete mechanical strength changes with corrosion process.

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在试验和数值试验的基础上，研究了粉煤灰和缓蚀剂对水泥砂浆和混凝土钢筋腐蚀的影响

混凝土中钢筋的腐蚀是结构破坏的主要原因之一。本文旨在通过试验试验和数值模拟来评价粉煤灰和缓蚀剂对钢筋腐蚀的联合作用。制备了含普通硅酸盐水泥（OPC）、F级粉煤灰（FA）和亚硝酸钠（SN）的不同砂浆样品，并进行了测试。同样，用OPC和FA配制混凝土样品来比较砂浆的结果。测定了砂浆或混凝土组的吸水率、快速氯离子渗透性、抗压强度和劈裂抗拉强度，获得了砂浆或混凝土组的输送性能和力学性能。采用外加电流（IC）加速腐蚀试验对预埋钢筋进行腐蚀诱导。通过测定不同腐蚀时间下的腐蚀电位（Ecorr）、线极化电阻（Rp）、钢筋拔出强度（τp）和钢筋质量损失来揭示钢筋的腐蚀发展过程。结果表明，理论计算的早期钢质量损失（法拉第定律）高于重量测量值，这可以解释为由于钝化层的保护，早期的外加电流效率较低。FA通过降低氯离子渗透速率和形成更致密的孔隙结构来降低腐蚀速率。SN略微增加了氯离子渗透率，但由于氯离子浓度阈值的增加和钝化层破坏的延迟，仍然延缓了腐蚀的发展。数值模拟描述了第一次裂纹萌生和裂纹发展过程中锈蚀的积累和钢筋拉拔强度的降低。总的来说，本研究的发现增强了对钢筋腐蚀及其对钢筋混凝土机械强度随腐蚀过程变化的不利影响的认识。

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

Construction and Building Materials 工程技术-材料科学：综合

CiteScore

13.80

自引率

21.60%

发文量

3632

审稿时长

82 days

期刊介绍： Construction and Building Materials offers an international platform for sharing innovative and original research and development in the realm of construction and building materials, along with their practical applications in new projects and repair practices. The journal publishes a diverse array of pioneering research and application papers, detailing laboratory investigations and, to a limited extent, numerical analyses or reports on full-scale projects. Multi-part papers are discouraged. Additionally, Construction and Building Materials features comprehensive case studies and insightful review articles that contribute to new insights in the field. Our focus is on papers related to construction materials, excluding those on structural engineering, geotechnics, and unbound highway layers. Covered materials and technologies encompass cement, concrete reinforcement, bricks and mortars, additives, corrosion technology, ceramics, timber, steel, polymers, glass fibers, recycled materials, bamboo, rammed earth, non-conventional building materials, bituminous materials, and applications in railway materials.