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Carbonation and Corrosion Problems in Reinforced Concrete Structures

BUILDINGS (2022)

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Article Construction & Building Technology

Evolution of ITZ and its effect on the carbonation depth of concrete under supercritical CO2 condition

Hao Bao et al.

Summary: In this study, supercritical carbonation tests were conducted on concrete specimens with different water-to-cement ratios. The thickness of interfacial transition zone (ITZ) was determined by analyzing the distribution of Ca/Si ratio across the interface between coarse aggregate and cement paste. The impact of supercritical carbonation on micro hardness distribution, microstructure, and porosity of ITZ was analyzed. A geometric and physical model was proposed to study cracks, pores, calcium carbonates, and C-S-H gel at the interface of coarse aggregates and cement paste. The results showed that the overall microstructures of concrete became more compacted after supercritical carbonation, with a reduction in ITZ thickness. Furthermore, the carbonation depth of concrete was found to be positively correlated with the thickness and porosity of ITZ. Porosity of ITZ was identified as having a greater impact on the carbonation depth of concrete.

CEMENT & CONCRETE COMPOSITES (2022)

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Article Construction & Building Technology

Carbonation model for concretes with fly ash, slag, and limestone calcined clay-using accelerated and five - year natural exposure data

Sundar Rathnarajan et al.

Summary: Supplementary cementitious materials (SCMs) can be used to enhance sustainability and reduce carbon footprint in the concrete industry. This study evaluated the carbonation resistance of various concretes and developed a more generic model to estimate carbonation coefficients. The results demonstrate that SCMs can be used to design concretes with comparable long-term carbonation depth as ordinary Portland cement (OPC) concretes.

CEMENT & CONCRETE COMPOSITES (2022)

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Article Construction & Building Technology

Corrosion mechanism and damage characteristic of steel fiber concrete under the effect of stray current and salt solution

Wenqiang Xu et al.

Summary: Steel fiber reinforced concrete (SFRC) is widely used in construction and transportation due to its superior mechanical properties. Chloride is found to be the most destructive factor for SFRC, causing local rust expansion and concrete damage, ultimately reducing mechanical properties. The higher the chloride concentration in the environment, the faster the SFRC corrosion.

CONSTRUCTION AND BUILDING MATERIALS (2022)

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Article Chemistry, Multidisciplinary

Ambient pressure carbonation curing of reinforced concrete for CO2 utilization and corrosion resistance

Xiangping Xian et al.

Summary: Carbonation curing of concrete is an emerging technology that improves material properties and sequesters CO2 in cement matrix. Utilizing this technology in reinforced concrete can enhance its CO2 utilization potential and corrosion resistance. However, controlling carbonation corrosion remains a challenge.

JOURNAL OF CO2 UTILIZATION (2022)

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Article Construction & Building Technology

Inhomogeneities of carbonation depth distributions in recycled aggregate concretes: A visualisation and quantification study

Renjie Mi et al.

Summary: This study demonstrates the inhomogeneities of carbonation depths in recycled aggregate concrete and investigates the effects of RCA types, replacement ratios, and strengthening methods on carbonation depths. The results indicate that selecting appropriate RCA can effectively reduce carbonation depths, while the nano-SiO2 slurry soaking method has a less significant effect. Additionally, predicting carbonation degree using maximum carbonation depth is a more conservative approach.

CONSTRUCTION AND BUILDING MATERIALS (2022)

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Article Green & Sustainable Science & Technology

Quantification of CO2 uptake of concretes with mineral additions after 10-year natural carbonation

Akli Younsi et al.

Summary: The CO2 uptake of Portland cement, fly ash, and blast furnace slag concrete was studied to assess the CO2 exchanges during the life cycle of structures. It was found that concrete with high slag content has lower CO2 binding capacity but compensates with a higher carbonation depth.

JOURNAL OF CLEANER PRODUCTION (2022)

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Article Construction & Building Technology

Combined impact of carbonation and crack width on the Chloride Penetration and Corrosion Resistance of Concrete Structures

Abbas S. AL-Ameeri et al.

Summary: This study investigates the impact of concrete carbonation on chloride penetration resistance and corrosion rate in RC structures with service-related cracks. Results demonstrate that carbonation significantly increases chloride penetration depth, chloride concentration profile, and corrosion potential when exposed to chloride environment, compared to uncarbonated concrete samples.

CEMENT & CONCRETE COMPOSITES (2021)

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Article Construction & Building Technology

Study of wiring method on accelerated corrosion of steel bars in concrete

Qiang Li et al.

Summary: The study investigates the effects of accelerated corrosion by electrolytic methods on reinforced concrete elements. It found that under the same corrosion condition, stirrups rust first and at a higher rate than longitudinal reinforcement, regardless of the wiring method. Different wiring methods have little impact on corrosion rate, expansion, and surface morphology.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

The effect of organic core-shell corrosion inhibitors on corrosion performance of the reinforcement in simulated concrete pore solution

Jie Hu et al.

Summary: The study demonstrated that organic core-shell corrosion inhibitors effectively reduce the corrosion rate of reinforcement in simulated concrete pore solution. When the concentration of BTA-containing CSCI is above 2.27 x 10(-3) wt%, the inhibition efficiency exceeds 93%, contributing to the formation of a protective film and enhancing the corrosion protection of the reinforcement.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Corrosion rate measurement by using polarization resistance method for microcell and macrocell corrosion: Theoretical analysis and experimental work with simulated concrete pore solution

Lijie Chen et al.

Summary: This study investigates corrosion rate measurement of microcell and macrocell corrosion (MMC) in reinforced concrete using the polarization resistance method. A modified Stern-Geary equation for MMC is proposed to account for the effects of macrocell current, and it is validated for both active and passive steel rebars. It is found that there is a significant overestimation for passive steel rebars, while a substantial measurement error exists for active steel rebars due to the macrocell current.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Chloride threshold value and initial corrosion time of steel bars in concrete exposed to saline soil environments

Deqiang Yang et al.

Summary: This research determined the initial corrosion time and chloride threshold value of steel bars in saline soil simulation solutions through experimentation. Sulfate and other ions were found to influence the corrosion time and threshold value, and a prediction model was established. The results can provide experimental evidence for the service life prediction of reinforced concrete structures in a saline soil environment.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Engineering, Mechanical

Carbonation depth predictions in concrete structures under changing climate condition in China

Guofang Chen et al.

Summary: Significant changes in global climate have led to an increase in carbonation depth, indicating that the impact of climate change on existing and new reinforced concrete structures should be taken into consideration.

ENGINEERING FAILURE ANALYSIS (2021)

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Article Construction & Building Technology

Anti-microbial corrosion performance of concrete treated by Cu2O electrodeposition: Influence of different treatment parameters

Zhengyu Zhu et al.

Summary: Electrodeposition of Cu2O on concrete surfaces was studied to protect concrete sewers from microbial corrosion. The deposits were found to inhibit the growth of harmful bacteria, and optimal electrodeposition parameters were determined for antimicrobial performance.

CEMENT & CONCRETE COMPOSITES (2021)

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Article Construction & Building Technology

Throwing power and service life of galvanic cathodic protection with embedded discrete anodes for steel reinforcement in chloride contaminated concrete

Bjorn Van Belleghem et al.

Summary: The throwing power of a galvanic cathodic protection system with embedded discrete anodes in chloride contaminated reinforced concrete is greatly affected by environmental conditions and corrosion activity, being most effective when installed at the moment of corrosion initiation.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

CTAB-assisted electrodeposition of Cu coating on hardened cement paste for controlling microbial induced concrete corrosion

Yunchao Liang et al.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

A modified numerical model for predicting carbonation depth of concrete with stress damage

Xinyu Shi et al.

Summary: A modified carbonation model based on humidity-temperature-CO2 coupling was proposed and validated through experiments. The study showed that various factors such as stress damage play a significant role in the impact of carbonation on concrete.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Review Construction & Building Technology

Reinforced concrete structures: A review of corrosion mechanisms and advances in electrical methods for corrosion monitoring

Romain Rodrigues et al.

Summary: Steel corrosion is the main cause of deterioration in reinforced concrete structures, with environmental factors and steel condition playing crucial roles in corrosion initiation; Electrical methods can accurately monitor corrosion risk areas and rates, with new technologies such as concrete resistivity testing providing more research avenues.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Corrosion behavior of stirrups in corroded concrete beams exposed to chloride environment under sustained loading

Wulong Zhang et al.

Summary: This study discusses the corrosion behavior of stirrups in concrete beams exposed to a chloride environment under sustained loading for 9 years. The experimental results show that the horizontal legs of stirrups primarily corroded at certain locations, while the corrosion of vertical legs was slight and the correlation between the corrosion of stirrups and main reinforcing steels was difficult to establish.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Corrosion initiation mechanisms and service life estimation of concrete systems with fusion-bonded-epoxy (FBE) coated steel exposed to chlorides

Deepak K. Kamde et al.

Summary: This paper evaluates the suitability of various techniques for detecting the corrosion initiation of fusion-bonded-epoxy (FBE) coated steel rebars in concrete, with electrochemical impedance spectroscopy (EIS) identified as the best technique. A new es-ACT test method using EIS is developed to detect corrosion initiation and determine chloride threshold at the coating-steel interface. The paper also discusses a 4-stage degradation process and corrosion initiation process, as well as proposes a method to estimate the service life of reinforced concrete systems with FBE coated rebars.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Corrosion performance of hot-dip galvanized zinc-aluminum coated steel rebars in comparison to the conventional pure zinc coated rebars in concrete environment

Abdulaziz Al-Negheimish et al.

Summary: In this study, zinc was alloyed with aluminum to enhance the corrosion resistance of hot-dip galvanized coated steel rebars, with the 10%Al-90%Zn alloy providing the best results. The corrosion resistance performances of the coated rebars were evaluated using various test methods, and the 10AZ-coated rebar showed superior performance compared to the 100Z-coated rebar. Various techniques were employed to study the kinetics and corrosion mechanism of the coated rebars.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Chemistry, Physical

A new corrosion inhibitor for steel rebar in concrete: Synthesis, electrochemical and theoretical studies

Youcef Bellal et al.

Summary: The study synthesized a Schiff base that inhibits rebar corrosion, confirmed its effectiveness through XRD, electrochemical, and morphological analyses. Mechanical testing showed good resistance to bending and compression. Theoretical and experimental results on quantum chemical parameters were consistent, providing further support for the research findings.

JOURNAL OF MOLECULAR STRUCTURE (2021)

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Article Engineering, Multidisciplinary

New paradigm in the metrology of concrete surface morphology: Methods, parameters and applications

Lukasz Sadowski et al.

Summary: This article introduces a new paradigm of concrete surface morphology and discusses the fundamental definitions and various metrological methods used for characterizing concrete surfaces. It includes a critical analysis of these methods, classification of parameters, and applications of surface morphology methods in concrete over the past decades.

MEASUREMENT (2021)

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Review Engineering, Environmental

Use of steel slag as sustainable construction materials: A review of accelerated carbonation treatment

Qifeng Song et al.

Summary: Steel slag is a by-product of the steelmaking process characterized by abundant free calcium/magnesium oxide and high heavy metal content. Recent research has shown that accelerated carbonation can improve the properties of steel slag. The challenge lies in understanding the interconnectedness between influencing factors and their contributions to the improvement of steel slag properties.

RESOURCES CONSERVATION AND RECYCLING (2021)

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Article Construction & Building Technology

Microencapsulated bio-based phase change material-micro concrete composite for thermal energy storage

R. Parameshwaran et al.

Summary: The study focuses on developing a novel microencapsulated bio-based phase change material (MbP) integrated into a micro concrete composite (MbPMC) for thermal energy storage in buildings. Experimental characterization showed that the MbP and MbPMC exhibit good thermal properties and structural stability.

JOURNAL OF BUILDING ENGINEERING (2021)

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Review Construction & Building Technology

Corrosion mechanism of reinforced bars inside concrete and relevant monitoring or detection apparatus: A review

Zhe Li et al.

Summary: The corrosion of reinforced bars is a major challenge for durability performance of reinforced concrete structures, and extensive research has been conducted worldwide to investigate corrosion mechanisms and develop monitoring devices. More studies are focusing on developing novel monitoring equipment to accurately detect corrosion-triggered cracks, and there is a suggestion to establish an intelligent monitoring system incorporating novel sensors and data collection devices.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Investigation of the effects of multiple and multi-directional reinforcement on corrosion-induced concrete cracking pattern

Hafiza Fatima Zahid et al.

Summary: Reinforced concrete structures are susceptible to damage from reinforcement corrosion, leading to concrete spalling and reduced lifespan. This experimental study investigates the impact of multiple and multidirectional rebars on corrosion cracking, as well as the effects of corrosion location and sequence. Results show that confinement plays a significant role in controlling crack widths, with multidirectional reinforcement altering crack direction.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Impact of climate change on the carbonation in concrete due to carbon dioxide ingress: Experimental investigation and modelling

Abbas S. AL-Ameeri et al.

Summary: This study developed an integrated deterioration model of carbonation in concrete, considering the combined impacts of internal and external factors on carbonation rates. The model was validated through carbonation experiments and used to forecast DoC for identification of corrosion state due to climate change impacts.

JOURNAL OF BUILDING ENGINEERING (2021)

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Article Construction & Building Technology

A closer look at corrosion of steel reinforcement bars in concrete using 3D neutron and X-ray computed tomography

Samanta Robuschi et al.

Summary: This study utilized a state-of-the-art non-destructive 3D method, including multimodal neutron and X-ray tomography, to observe the characteristics of corrosion products in two concrete samples. The research aimed to investigate the potential benefits of this technique for reinforced concrete structures, providing quantitative and qualitative data on the corrosion process.

CEMENT AND CONCRETE RESEARCH (2021)

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Article Construction & Building Technology

Corrosion inhibition efficiency of compound nitrite with D-sodium gluconate on carbon steel in simulated concrete pore solution

Peizhen Xu et al.

Summary: The inhibitory performance and mechanism of compound nitrite with D-sodium gluconate on carbon steel in simulated concrete pore solution were studied. The results showed effective hindrance of pitting corrosion by the corrosion inhibitor, enhanced stability of the passive film on carbon steel, and competition with chloride ions for adsorption, weakening the adsorption of chloride ions on the steel surface.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Investigation of the density, porosity, and permeability properties of pervious concrete with different methods

Ahmet Akkaya et al.

Summary: This study aimed to find simple and effective methods and to compare the methods used to determine density and porosity measurements of PC mixtures in the form of cylinders, cubes, and prisms of different sizes. Various performance parameters of pervious concrete with different aggregate sizes and A/B ratios were tested to investigate the impact of aggregate size and A/B ratio on porosity, permeability, and density.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Effect of concrete cracks on the corrosion of headed studs in steel and concrete composite structures

Xiaoqing Xu et al.

Summary: This study investigated the effect of concrete cracks on stud corrosion, finding that cracks had a significant impact on corrosion distribution. It was also discovered that the length of the chloride transport path was a significant parameter affecting stud corrosion.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Review Construction & Building Technology

A review of residual strength properties of normal and high strength concrete exposed to elevated temperatures: Impact of materials modification on behaviour of concrete composite

O. E. Babalola et al.

Summary: This study reviews the residual strength properties of normal and high strength concrete exposed to elevated temperatures, considering the influence of natural and recycled aggregates, mineral admixtures, and fibers. Researchers have explored different testing methods to understand the mechanical properties of concrete after exposure to heat. It suggests the need for extensive research on concrete containing admixtures and fibers subjected to high temperatures for a better understanding of residual strength properties.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Assessment of corrosion inhibition efficiency of generic compounds having different functional groups in carbonated pore solution with chlorides and migration ability in concrete

Ashish Tiwari et al.

Summary: The study investigated the corrosion inhibition effect of generic compounds in simulated carbonated pore solution contaminated by chloride ions. Two generic compounds, Triethylphosphate (TEP) and Salicyaldehyde (SA), were found to reduce corrosion rate in tested concentrations, with SA demonstrating higher efficiency. Various surface analysis techniques confirmed different inhibition mechanisms of TEP and SA.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

An experimental assessment of corrosion damage and bending capacity reduction of singly reinforced concrete beams subjected to accelerated corrosion

Hussein Nasser et al.

Summary: This study investigates the structural behavior of corroded concrete beams and reveals the relationship between corrosion damage and failure mechanisms; corrosion crack width is identified as a good indicator of the corrosion level; the interaction between bond deterioration and cross-section loss distribution has an impact on bending behavior.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Construction & Building Technology

Experimental study on the porosity evaluation of pervious concrete by using ultrasonic wave testing on surfaces

E. Ridengaoqier et al.

Summary: This research conducted two experiments to determine methods for estimating the porosity of pervious concrete using ultrasonic wave testing. The results showed that the quantitative relationship between ultrasonic wave velocity and PC porosity can be approximated by a quadratic function.

CONSTRUCTION AND BUILDING MATERIALS (2021)

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Article Materials Science, Multidisciplinary

Investigation of oxygen diffusion and corrosion potential in steel-reinforced concrete through a cellular automaton framework

Dena Khatami et al.

Summary: This study aims to develop a model linking corrosion process and oxygen availability in the cathodic region, which is proven to be the governing factor in corrosion propagation in steel-reinforced concrete. The model is solved using a cellular automaton framework and a simulation-based probabilistic approach is employed to investigate uncertainties present in oxygen diffusion parameters, polarization variables, and structural details, especially for predicting crack width for durability and serviceability assessment purposes.

CORROSION SCIENCE (2021)

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Article Engineering, Mechanical

Corrosion-induced spalling of concrete cover and its effects on shear strength of RC beams

Xuhui Zhang et al.

Summary: This study investigates the effects of corrosion-induced spalling of cover concrete on the shear strength of RC beams through numerical analysis. It is found that the propagation of cracks is influenced by corrosion loss, as well as factors such as cover thickness, stirrup spacing, and aggregate. These factors significantly affect the spalling of concrete covers.

ENGINEERING FAILURE ANALYSIS (2021)

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Article Construction & Building Technology

Evaluation on relationship between accelerated carbonation and deterioration of concrete subjected to a high-concentrated sewage environment

Lijuan Kong et al.

CONSTRUCTION AND BUILDING MATERIALS (2020)

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Article Construction & Building Technology

Critical conditions and life prediction of reinforcement corrosion in coral aggregate concrete

Ditao Niu et al.

CONSTRUCTION AND BUILDING MATERIALS (2020)

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Article Construction & Building Technology

Corrosion assessment of reinforced concrete structures exposed to chloride environments in underground tunnels: Theoretical insights and practical data interpretations

Chen Li et al.

CEMENT & CONCRETE COMPOSITES (2020)

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An alternative method to measure corrosion rate of reinforced concrete structures

Gabriel Samson et al.

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Corrosion response of zinc phosphate conversion coating on steel fibers for concrete applications

J. Liu et al.

JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T (2020)

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Characteristics of the steel-concrete interface and their effect on the corrosion of steel bars in concrete

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Combined application of novel electromagnetic sensors and acoustic emission apparatus to monitor corrosion process of reinforced bars in concrete

Zhe Li et al.

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A comparative investigation on cathodic protections of three sacrificial anodes on chloride-contaminated reinforced concrete

Fei Wang et al.

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Carbonation Depth Model and Prediction of Hybrid Fiber Fly Ash Concrete

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Analysis of corrosion risk due to chloride diffusion for concrete structures in marine environment

Tristan Senga Kiesse et al.

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Potential and current distribution across different layers of reinforcement in reinforced concrete cathodic protection system- A numerical study

Arpit Goyal et al.

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Carbonation depth model and carbonated acceleration rate of concrete under different environment

Peng Liu et al.

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Experimental investigations on the influence of cover depth and concrete quality on time to cover cracking due to carbonation-induced corrosion of steel in RC structures in an urban, inland environment

Mike Otieno et al.

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A novel specific requirements for materials used in reinforced concrete composites subjected to dynamic loads

Grzegorz Ludwik Golewski

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The colours of concrete as seen by X-rays and neutrons

Emmanuel Roubin et al.

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The role of relative humidity and cement type on carbonation resistance of concrete

Mona Elsalamawy et al.

ALEXANDRIA ENGINEERING JOURNAL (2019)

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Statistical analysis of concrete carbonation depths considering different coarse aggregate shapes

Zhi-Lu Jiang et al.

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Experimental Analysis of the Co-Deposition of Metal Cu and Nano-Sized SiC Particles with CTAB in Micro Via Filling

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Analysis of moisture migration in concrete at high temperature through in-situ neutron tomography

Dorjan Dauti et al.

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3D neutron tomography of steel reinforcement corrosion in cement-based composites

Peng Zhang et al.

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Predicting degradation of the anode-concrete interface for impressed current cathodic protection in concrete

Emma Qingnan Zhang et al.

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Effect of corrosion on flexural strength of reinforced concrete beams with polypropylene fibers

Kamil Bicer et al.

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Influence of coupled effects between flexural tensile stress and carbonation time on the carbonation depth of concrete

Jian Wang et al.

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Effect of carbonation on physical sulfate attack on concrete by Na2SO4

Zanqun Liu et al.

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Carbonation of concrete: the role of CO2 concentration, relative humidity and CO2 buffer capacity

Andreas Leemann et al.

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Simplified electrochemical potential noise method to predict corrosion and corrosion rate

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JOURNAL OF LOSS PREVENTION IN THE PROCESS INDUSTRIES (2017)

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Impressed current cathodic protection of rebar in concrete using Carbon FRP laminate

Prasad V. Bahekar et al.

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The Passive Film Growth Mechanism of New Corrosion-Resistant Steel Rebar in Simulated Concrete Pore Solution: Nanometer Structure and Electrochemical Study

Jin-yang Jiang et al.

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Long-term monitoring of reinforcement corrosion in concrete using ground penetrating radar

Shuxian Hong et al.

CORROSION SCIENCE (2017)

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Review Construction & Building Technology

Carbonation of cement paste: Understanding, challenges, and opportunities

Branko Savija et al.

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Diagnosis of carbonation induced corrosion initiation and progression in reinforced concrete structures using piezo-impedance transducers

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Carbonation-Induced and Chloride-Induced Corrosion in Reinforced Concrete Structures

Y. Zhou et al.

JOURNAL OF MATERIALS IN CIVIL ENGINEERING (2015)

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Preparation and characterization of CaO nanoparticles from Ca(OH)2 by direct thermal decomposition method

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Carbonation service life modelling of RC structures for concrete with Portland and blended cements

Pedro Faustino Marques et al.

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Field assessment of the relationship between natural and accelerated concrete carbonation resistance

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Throwing power of localised anodes for the cathodic protection of slender carbonated concrete elements in atmospheric conditions

Elena Redaelli et al.

CONSTRUCTION AND BUILDING MATERIALS (2013)

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Carbonation of surface protected concrete

Jose B. Aguiar et al.

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Numerical analysis of the effect of coarse aggregate distribution on concrete carbonation

Qinghua Huang et al.

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Effect of plastering on the carbonation of a 35-year-old reinforced concrete building

N. M. Huang et al.

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Climate change adaptation for corrosion control of concrete infrastructure

Mark G. Stewart et al.

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Effect of steel corrosion and loss of concrete cover on strength of deteriorated RC columns

M. Tapan et al.

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Influence of pH on the nitrite corrosion inhibition of reinforcing steel in simulated concrete pore solution

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CORROSION SCIENCE (2011)

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Climate change impact and risks of concrete infrastructure deterioration

Mark G. Stewart et al.

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Service life of RC structures: Carbonation induced corrosion. Prescriptive vs. performance-based methodologies

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Article Construction & Building Technology

Chloride-induced corrosion products of steel in cracked-concrete subjected to different loading conditions

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CEMENT AND CONCRETE RESEARCH (2009)

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Article Construction & Building Technology

Carbonation of concrete in relation to CO2 permeability and degradation of coatings

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Article Materials Science, Multidisciplinary

Cathodic protection of steel in concrete using magnesium alloy anode

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Article Physics, Multidisciplinary

Carbonation and historical buildings made of concrete

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Article Food Science & Technology

Survival of Listeria monocytogenes Scott a on metal surfaces:: Implications for cross-contamination

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INTERNATIONAL JOURNAL OF FOOD MICROBIOLOGY (2006)

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Article Construction & Building Technology

Influence of coarse aggregate on the permeation, durability and the microstructure characteristics of ordinary Portland cement concrete

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