Your search keyword '"atmospheric corrosion"' showing total 3,505 results

1. Boosting corrosion resistance of Mg-Li alloy: Implanting bioinspired superhydrophobic surfaces into MAO matrix for enhanced protection.

Author

Ouyang, Yibo, Zhou, Zhihao, Guo, Enyu, Qiu, Ri, Chen, Zongning, Kang, Huijun, and Wang, Tongmin

Subjects

*SUPERHYDROPHOBIC surfaces, *ATOMIC force microscopy, *SALINE solutions, *ELECTROLYTIC corrosion, *SUBSTRATES (Materials science)

Abstract

The corrosion problem has significantly impeded the practical application of Mg-Li alloys. In this report, a method that combines micro-arc oxidation (MAO) with electrochemical deposition is developed to create a superhydrophobic matrix on Mg-Li substrate. The combination approach harnesses the superiority of both coverages, including MAO as the dense, firmly bonded ceramic oxide layer on the metal substrate and the superhydrophobic surface (SHS) implanted into MAO matrix. The MAO-SHS coating exhibits high mechanical stability, maintaining the superhydrophobicity due to the "implanting effect" even after a long distance of friction effect. For corrosion inhibition, compared to the bare Mg-Li with i corr of 9.26 × 10−5 A/cm2, the i corr for MAO and MAO-SHS is 7.83 × 10−6 A/cm2 and 7.50 × 10−9 A/cm2, respectively, representing the reduction of approximately one and four orders of magnitude. Focusing the atmospheric corrosion inhibition, MAO-SHS proves to manipulate the dynamic evolution of saline solution evaporation and salt particle deliquation. The salt particle crystalized from saline solution on MAO-SHS is found to have significantly smaller contact area than that of the bare Mg-Li and MAO. By employing atomic force microscopy, the adhesion force of salt particle is revealed as ca. 45 nN, 13 nN, and 2 nN for salt particle on Mg-Li, MAO, and MAO-SHS, respectively. This suggests that the salt can be more easily removed from the MAO-SHS surface, thereby reducing the susceptibility to corrosion. The in situ deliquation is conducted to understand the formation of the droplet on different surfaces. The air in the SHS layer hinders chloride ingress and the SHS layer seals the pores in MAO layer, proving the synergistic effect afforded by MAO-SHS to achieve superior corrosion resistance. [ABSTRACT FROM AUTHOR]

Published

2024

2. Atmospheric corrosion of AISI‐1020 carbon steel in a very aggressive coastal zone of Havana, Cuba. Determination of corrosivity category using three ways of assessment.

Author

Castañeda, Abel, Valdés, Cecilia, Corvo, Francisco, Pech, Ildefonso, and Marrero, Rigoberto

Subjects

*CARBON steel corrosion, *SOLUTION (Chemistry), *STRESS corrosion cracking, *COASTS, *SALINE solutions, *CARBON steel

Abstract

The Cuban coastal line is reported to be one of the most aggressive in the world. Three ways to estimate corrosivity category of the atmosphere were considered. The influence of meteorological parameters on chloride deposition rate (Sd) $({S}_{d})$ in saline solution form was considered as a first way. Corrosion rate (rcorr) $({r}_{\text{corr}})$ calculated by dose response function is considered a second way. It was confirmed that atmospheric corrosion of AISI‐1020 carbon steel is influenced by Sd ${S}_{d}$ and Pd ${P}_{d}$ in salt solution form. A critical Sd ${S}_{d}$ level from which rcorr ${r}_{\text{corr}}$ could increase was estimated. The presence of typical crystalline phases of carbon steel confirmed that formation mechanism led to cracking of the corrosion products layer. It justified the increase of rcorr as a function of time until reaching a very high (C5) corrosivity category as the third assessment way. rcorr ${r}_{\text{corr}}$ was predicted up to 20 years of exposure. A correspondence between the three assessment ways existed. [ABSTRACT FROM AUTHOR]

Published

2024

3. The dynamic behavior and nonlinear characteristics of aircraft landing gear retraction mechanism considering atmospheric corrosion.

Author

Gao, Shun, Fan, Shouwen, and Wang, Wenjuan

Subjects

*RUNGE-Kutta formulas, *SIMULATION software, *ENVIRONMENTAL degradation, *ATMOSPHERIC models, *WEATHER

Abstract

• An atmospheric corrosion model of clearance joint is developed based on COMSOL simulation software. • A dynamic modeling and analysis method for ALGRM considering atmospheric corrosion is explored. • The effects of corrosion time and different bearing materials on ALGRM are investigated. • The dynamic behavior and nonlinear characteristics of ALGRM are discussed. Atmospheric corrosion poses a significant challenge for the components of aircraft exposed to prolonged harsh weather conditions, critically impacting the safety property of aircraft landing gear retraction mechanism (ALGRM). This paper focuses on the ALGRM of a specific aircraft type, presenting a new modeling and analysis approach to assess the influence of atmospheric corrosion on dynamic behavior and nonlinear characteristics of mechanism. Initially, the dynamic model of ALGRM incorporating clearance joints is established using Lagrangian method. Numerical solutions are then obtained using the Runge-Kutta method. Subsequently, COMSOL simulation software is employed to simulate the corrosion morphology of the bearing under atmospheric corrosion, integrating the corroded bearing surfaces into the dynamic model of the mechanism. Finally, the study investigates the effects of corrosion time and different bearing materials on the dynamic behavior and nonlinear characteristics of ALGRM considering atmospheric corrosion. The results indicate that as corrosion time increases, the degradation of the dynamic behavior of ALGRM becomes more pronounced, and there are significant variations for corrosion morphology of bearing made of different materials under atmospheric corrosion. The findings of this study contribute to a broader understanding of the complex interactions between the dynamic behavior of aircraft and environmental degradation, providing some insights for designing ALGRM that are more durable and adaptable to atmospheric corrosion environments. [ABSTRACT FROM AUTHOR]

Published

2024

4. Corrosion of Copper with Nickel or Zinc Addition in a Typical Marine Atmospheric Environment.

Author

Ni, Xiaoqing, Kong, Decheng, and Dong, Chaofang

Abstract

Long-term corrosion behaviors of copper-zinc alloy (H62) and copper-nickel alloy (B30) in a typical marine atmospheric environment are systemically investigated in this work. Microstructural characterization and electrochemical tests show that pitting corrosion occurs on H62 alloy, and the bottom of the pits is dendritic due to preferential dezincification, whereas B30 exhibits uniform corrosion with a relatively compact corrosion product after long-term exposure. The outermost and innermost layers (accounting for 9.7% and 43.8% of the entire thickness of the corrosion products, respectively) with copper enrichment exist on B30, and the middle layer is enriched with nickel oxide. The annual weight loss rate for H62 is 1.5 times larger than for B30 (approximately 4.65 g m−2 y−1), indicating an improved corrosion resistance for the nickel addition compared to zinc. Furthermore, the Warburg impedance across the corrosion pits increases with the exposure period for H62 alloy due to the slower oxygen or soluble ion diffusion therein, which demonstrates that the pit growth becomes slow as the corrosion products thicken before re-passivation. [ABSTRACT FROM AUTHOR]

Published

2024

5. Assessing Atmospheric Corrosion of Mg AZ31B in Different Environments and Product Stability through Electrochemical Tests.

Author

Zuhdy, Abdullatief, Azizah, Jasmita Nur, Ramelan, Aditianto, and Setiawan, Asep Ridwan

Subjects

AUTOMOTIVE materials, X-ray diffraction, WEATHER, IMPEDANCE spectroscopy, CORROSION resistance

Abstract

Magnesium and its alloy continue to grow as a material in automotive industries, because of their efficiency and ability to improve the power-to-weight ratio of transportation. Depending on the environmental conditions, magnesium can be subjected to varying degrees of atmospheric corrosion, as it is directly exposed to atmospheric conditions. Atmospheric corrosion behavior of AZ31B Magnesium in urban and rural environments was investigated in Indonesia. The test was carried out for 1, 2, and 4 months. Mass loss measurement results show that the longer the exposure time, the higher the atmospheric corrosion rate of the AZ31B alloy. In addition, the corrosion rate in the Mg AZ31B specimen in urban environment (ITB) tends to be higher than the corrosion rate in rural environment (Bosscha) related to the different in temperature. The corrosion product that formed on the specimen's surfaces was also thoroughly characterized. SEM, FTIR, and XRD were used to observe the corrosion product. Additionally, using open circuit potential, potentiodynamic polarization, and electrochemical impedance spectroscopy, the specimen's corrosion resistance was investigated using an electrochemical method in solutions of NaCl, Na2SO4, and NaCl + Na2SO4 to simulate atmospheric corrosion environment. [ABSTRACT FROM AUTHOR]

Published

2024

6. Patina formation and diffuse dispersion of alloying metals from weathering steels at urban atmospheric conditions—A combined laboratory and field investigation.

Author

Herting, Gunilla, Virolainen, Esa, and Odnevall, Inger

Subjects

*COPPER, *ALLOYS, *FIELD research, *METALS, *WEATHER

Abstract

The increasing use of weathering steels (WS) has raised concerns regarding the diffuse emission of alloying elements. This research paper investigates the release of iron (Fe) and the alloying elements (Cr), copper (Cu), manganese (Mn) and nickel (Ni) from two commercially available WS at urban field conditions in Stockholm, Sweden, during 1 year and in the laboratory at simulated urban conditions. The amount of released metals is evaluated and compared with recommended levels of metals in drinking water and the formation and evolution of the protective patina is studied in parallel to assess the influence on the metal release process. Only minor amounts of the alloying elements are released and is only linked to the outermost surface composition of the patina during the very beginning of the exposure. The released amounts are found to be lower compared with the corresponding levels recommended by the World Health Organisation for drinking water. [ABSTRACT FROM AUTHOR]

Published

2024

7. Evaluation of chloride stress corrosion cracking susceptibility of stainless steels.

Author

Johns, Earl, Friedersdorf, Fritz, Eklund, Keith, Brockenbrough, John, Hipwell, Nathan, Brown, Nate, and Stiger, Matt

Subjects

STRESS corrosion cracking, FRACTURE mechanics, STAINLESS steel corrosion, YIELD stress, FINITE element method

Abstract

The comparative chloride stress corrosion cracking (Cl-SCC) susceptibility for 304 L, 316 L, 317 L, and AL-6XN was evaluated using double cantilever beam (DCB) specimens in boiling MgCl2 by measuring the threshold stress intensity (KISCC), crack initiation time, and stage-II crack growth rate (CGR) for each material using in situ monitoring. Materials 304 L, 316 L, and 317 L were measured to have KISCC upper limit values of 2.5–5 MPa√m, substantially lower than previously measured for 304 L in DCB specimens in boiling MgCl2. The KISCC for AL-6XN was measured to be substantially higher, as would be expected in this more highly alloyed material. This work describes the challenge in measuring low KISCC values and how this was accomplished in the present work. More prototypical conditions were used to evaluate Cl-SCC behavior of 304 L using a DCB-like geometry with a smooth gauge area in a low humidity environment in the presence of MgCl2 salt. Finite element modeling (FEM) was used to establish the relationship between applied loads and stress and strain. Loading to 15 % strain led to low temperature creep that masked in situ Cl-SCC measurements. Below the yield stress (YS), no low temperature creep was observed, and Cl-SCC cracking could be distinguished using in situ methods. [ABSTRACT FROM AUTHOR]

Published

2024

8. Study of atmospheric corrosion of zinc in a tropical marine environment rich in H2S, resulting from the decomposition of Sargassum algae.

Author

Ahmed, Mahado Said, Lebrini, Mounim, Pellé, Julien, Rioual, Stephane, Amintas, Olivia, Boulanger, Carole, Lescop, Benoit, and Roos, Christophe

Subjects

*SARGASSUM, *HYDROGEN sulfide, *X-ray diffraction, *ALGAE, *ZINC

Abstract

The Martinique island, located in the Caribbean Sea, is subject to the stranding of Sargassum algae, which decompose and release toxic gases, such as hydrogen sulfide or ammonia. This study aims to investigate the atmospheric corrosion of zinc in these conditions. For this purpose, three sites in Martinique more or less impacted by Sargassum algae stranding were selected. Mass loss results after 1‐year exposure range from 1.9 µm for the site least impacted to 45.3 µm for the site most affected by Sargassum algae. This high value proves that the presence of Sargassum algae caused significant zinc degradation. The morphological structures and properties of the corrosion products obtained at the impacted and non‐impacted sites differ significantly. In the absence of Sargassum algae, "classical" corrosion products based on hydrozincite, simonkoleite, gordaite, and zinc hydroxylsulfate are observed. In the area close to the Sargassum seaweed stranding, the presence of elemental sulfur products, zinc hydroxylsulfate, and sphalerite is reported. [ABSTRACT FROM AUTHOR]

Published

2024

9. Insight into patina formed on beryllium-bronze after 29 years of exposure in an industrial environment and DFT research

Author

Yuwei Liu, Chenzhi Xing, Guocai Yu, Chuan Wang, Gongwang Cao, Shuo Cao, and Zhenyao Wang

Subjects

Beryllium-bronze, EIS, Polarization, XPS, Atmospheric corrosion, DFT, Mining engineering. Metallurgy, TN1-997

Abstract

This research explores the corrosion behavior of beryllium bronze over a period of 29 years in an industrial atmosphere, revealing an average corrosion rate of 0.557 μm·a−1. The skyward patina layer primarily consists of Cu2O, Cu4SO4(OH)6 and CuSO4, while the field-ward patina layer contains Cu2O, CuO, Cu4SO4(OH)6 and CuSO4. Density functional theory (DFT) calculations and XPS analysis show that Be oxidizes preferentially, providing early-stage corrosion protection. DFT and open circuit potential measurements suggest that the patina layer on the field-ward surface is more thermodynamically stable, but cracks serve as pathways for mass transport, accelerating corrosion.

Published

2024

10. Examination of Impaction Efficiency of Sea-Salt Particle for an Airborne Sea-Salt and a Corrosion Sensor Using CFD Model.

Author

Yasuo Hattori, Hitoshi Suto, Naoto Kihara, Hiromaru Hirakuchi, and Junichi Tani

Subjects

COMPUTATIONAL fluid dynamics, FLOW separation, GRANULAR flow, NAVIER-Stokes equations, SURFACE plates

Abstract

To improve estimation of sea salt deposition distributions on structural surfaces such as that of an airborne sea salt and corrosion sensor, we numerically simulated approaching flows with particles around a vertical flat plate. This is a typical object that mimics a sensor with a support plate. We used a computational fluid dynamics (CFD) model based on the unsteady Reynolds averaged Navier-Stokes equation. After validating the results by comparison with existing studies for flows with particles around a cylinder, we examined the changes in particle impaction efficiency on the plate with different approaching flow directions (0, 45 deg) and particle diameters (5 © 10-6-1.6 © 10-4 m). The impaction efficiency increases rapidly with particle diameter, whereas the influence of flow direction is small. Such increases in impaction efficiency are due to contributions from inertial impaction, and thus the variation in Stokes number with wind speed and the plate size can be used to predict the flow and particle conditions required for increases in impaction efficiency. The efficiencies for small particles on the front surface of the plate are higher than those on a cylinder. The impactions of small particles on the plate are locally activated by flow separations around a bluff body, whereas those on a cylinder are caused by intercepts without flow separations. [ABSTRACT FROM AUTHOR]

Published

2024

11. Study on the Performance and Mechanism of Morpholine Salt Volatile Corrosion Inhibitors on Carbon Steel.

Author

Zhao, Xiong, Zhang, Junying, Ma, Lu, Wang, Wubin, and Zhang, Mingxing

Subjects

X-ray photoelectron spectroscopy, CARBON steel corrosion, ADSORPTION (Chemistry), CARBON steel, PHYSISORPTION

Abstract

A series of morpholine salt volatile corrosion inhibitors (VCIs) were synthesized via solid-phase chemical reactions. The corrosion inhibition performance was assessed using evaporation weight loss, VCI capability, and corrosion weight loss tests. The corrosion inhibition mechanisms of the morpholine salt VCIs for carbon steel in atmospheric conditions were explored through electrochemical testing under thin film electrolytes, X-ray photoelectron spectroscopy (XPS), and computational simulations. Morpholine carbonate exhibited higher volatility. Corrosion weight loss tests showed an >85% reduction for steel treated with morpholine benzoate or morpholine carbonate. The inhibitors' inhibition mechanism, elucidated through X-ray photoelectron spectroscopy (XPS) and computational simulations, revealed that morpholine carbonate and benzoate form protective layers via physical and chemical adsorption on the steel surface, coordinating with iron atoms through nitrogen and oxygen atoms. Quantum chemical calculations demonstrated that morpholine carbonate had stronger adsorption energy and electron transfer capabilities, indicating superior corrosion inhibition performance over morpholine benzoate. [ABSTRACT FROM AUTHOR]

Published

2024

12. Study of The Amides Obtained by The Synthesis of Cottonseed Oil and Diethanolamine as Inhibitor to Prevent Atmospheric Corrosion.

Author

Ismayilov, Teyub, Suleymanova, Sevinj, Movsumova, Parvana, Musayeva, Nurana, and Aslanova, Sabahat

Abstract

Amides of cottonseed oil and diethanolamine were synthesized in 1:1, 1:2 and 1:3 mole ratios and the structures of the substances were confirmed using infrared spectroscopy. Physicochemical properties were also studied. Conservative liquids were developed by adding 3, 5 and 10% of the obtained amides into T-30 oil. Corrosion tests involved immersing metal plates in conservative liquids within a hydrochamber, seawater, and 0.001% H2SO4 solution. The studies revealed that synthetic amides can be used to develop conservative liquids of high protective efficiency. The best results were obtained by 10% solutions. It was determined that metal plates immersed in a 10% solution of amide in a mole ratio of 1:2 were protected from corrosion during 205 days in "Г-4" hydrochamber, 165 days in seawater, and 160 days in a 0.001% H2SO4 solution. Taking into account that the optimum composition created as a result of research is more favorable from an economic point of view, turbine oil was used as a solvent medium, and the obtained results met the demand. [ABSTRACT FROM AUTHOR]

Published

2024

13. Long‐term atmospheric corrosion rates of Zn55Al‐coated steel.

Author

Thierry, Dominique, Persson, Dan, and LeBozec, Nathalie

Subjects

*SOIL corrosion, *METAL coating, *ALUMINUM sulfate, *STEEL, *STEEL corrosion, *WEATHERING, *CORROSION resistance, *MASS measurement

Abstract

Hot‐dip Zn55Al‐coated steel samples have been exposed for up to 6 years at 11 different weathering sites, including marine, marine‐industrial, acid‐rain and dry atmospheres. From the mass loss measurements, Zn55Al metallic coating showed globally long‐term good corrosion resistance in all weathering conditions compared with hot‐dip Zn‐0.2Al‐coated steel (Z). Yet, weaker performance was observed on Zn55Al in high SO2 polluted atmosphere, particularly when combined with seawater aerosols. This is explained by a more acidic surface condition linked to high SO2. Although the extent of corrosion in this phase was different at the different sites, the final corrosion products formed after 6 years were rather similar at all sites. This consists of hydrous aluminium sulphate or hydrous aluminium hydroxy sulphate and, probably also a smaller amount of sulphate‐containing zinc corrosion products or Al/Zn products. [ABSTRACT FROM AUTHOR]

Published

2024

14. Corrosion of Carbon Steel in a Tropical Marine Environment Enhanced by H 2 S from Sargassum Seaweed Decomposition.

Author

Said Ahmed, Mahado, Lescop, Benoit, Pellé, Julien, Rioual, Stéphane, Roos, Christophe, and Lebrini, Mounim

Subjects

CARBON steel corrosion, CARBON steel, SARGASSUM, ENERGY dispersive X-ray spectroscopy, X-ray diffraction, SCANNING electron microscopy

Abstract

This article aims to investigate the atmospheric corrosion of carbon steel in a marine environment abundant in hydrogen sulfide (H2S) resulting from the decomposition of Sargassum seaweed. To accomplish this, four sites with varying degrees of impact were chosen along the coast of Martinique. The corrosion rates of steel were evaluated through mass loss measurements. After one year of exposure, the corrosion rates were notably high, particularly in atmospheres rich in Cl− ions and H2S, ranging from 107 µm to 983 µm. Complementing these findings, surface and product morphologies were characterized using scanning electron microscopy (SEM) coupled with energy dispersive X-ray spectroscopy (EDS) and X-ray diffraction (XRD). These analyses revealed a significant degradation of the corrosion surface in the most affected atmospheres compared to those unaffected by Sargassum seaweed strandings. Lepidocrocite (γFeOOH) was identified as the predominant product regardless of the exposure atmosphere. However, goethite (αFeOOH) was found to be present in atmospheres most impacted by H2S. [ABSTRACT FROM AUTHOR]

Published

2024

15. Research on Atmospheric Corrosion of 45# Steel in Low-Latitude Coastal Areas of China.

Author

Liu, Lihong, Zhang, Bo, Liu, Guoqiang, Wang, Liyan, Li, Jiao, Yuan, Peng, Yang, Zi, and Feng, Zhiyuan

Subjects

SOIL corrosion, STEEL corrosion, CARBON steel corrosion, WATER salinization, ENGINEERING equipment, WEATHER, X-ray diffraction, INDUSTRIAL safety

Abstract

Urgent action is required to mitigate the severe corrosion of carbon steel in low-latitude regions. The combination of high humidity, temperature, and salinity in these areas significantly accelerates steel corrosion, posing a substantial threat to the service safety of offshore engineering equipment. This study aims to elucidate the atmospheric corrosion mechanisms of 45# steel in low-latitude coastal areas. Samples of 45# steel were exposed to atmospheric conditions over various durations in the following three geographically distinct regions: Guangzhou, Wanning, and the South China Sea. The corrosion rates were calculated using weight loss tracking and potentiodynamic polarization measurements, while surface corrosion products were examined using X-ray diffraction (XRD) tests. The findings indicate a clear correlation between the corrosion rate of 45# steel and the latitude and specific location of the test area, with the highest to lowest rates observed in the South China Sea, Wanning, and Guangzhou, respectively. Similarly, the extent of corrosion rust penetration in defective coatings followed the same order. Moreover, the protection ability index (PAI) calculations revealed that none of the tested samples formed a protective corrosion film. [ABSTRACT FROM AUTHOR]

Published

2024

16. Microstructural Effect on the Corrosion Behavior of 3Ni Weathering Steels in Tropical Marine Atmospheric Environments: Outdoor Exposure and Indoor Tests.

Author

Sun, Yipu, Liu, Wei, Sun, Zongteng, Zhang, Tianyi, Zhang, Bo, Li, Hai, Chen, Longjun, Yang, Weijian, and Dong, Baojun

Abstract

This study discusses the comparative weatherability of three microstructures of ferrite, ferrite + bainite, and bainite, obtained by controlling the rolling and cooling processes of a well-established weathering steel by adding 3 wt% Ni in tropical marine atmospheric environments. In field exposure in the Trat (Thailand) and accelerated laboratory testing, the bainitic steel showed superior weathering resistance compared to the other microstructures. The corrosion rates after 12-month of exposure were 0.012 mm/y for ferritic steel, 0.010 mm/y for ferritic + bainite steel, and 0.009 mm/y for bainitic steel. An analysis of the electrochemical properties of the rust layer, its phase composition, and morphological observations revealed that the influence of microstructure on the atmospheric corrosion rate of weathering steels primarily depend on the density of the rust and the adhesion between the rust layer and the substrate. [ABSTRACT FROM AUTHOR]

Published

2024

17. Research on corrosion performance of Q235B steel in industrial coastal atmospheric environment

Author

Wenjuan Chen, Gang Pan, Zihan Liu, Anding Huang, and Shushu Wang

Subjects

Low carbon steel, Atmospheric corrosion, Rust, Corrosion resistance, Layer, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

This study aims to obtain the effect of SO2 on the corrosion of Q235B low carbon steel in simulated coastal industrial atmospheres.The corrosion performance of the steel in the simulated atmospheres was studied using wet/dry cyclic corrosion test (CCT), electrochemical testing analysis, scanning electron microscopy, X-ray diffraction, and COMSOL finite element simulation methods. As a result the influence of SO2, the corrosion rate of Q235B steel increases rapidly in the initial stage of corrosion, and gradually decreases in the later stages, eventually stabilizing. There is a gradual increase in ferrite content on the surface of the steel during the initial stage of corrosion. In addition, the main components of the rust layer α-FeOOH and γ-FeOOH, and high concentrations of SO2 promote α-FeOOH formation and inhibit γ-FeOOH formation.

Published

2024

18. Development of an Atmospheric Corrosion Monitor and Its Real-Time Monitoring Under Different Environmental Conditions

Author

Yuanguang, Yue, Zhibiao, Yin, Sheming, Jiang, Qifu, Zhang, and Zhang, Laichang, editor

Published

2024

19. An improved protection of alanine for atmospheric corrosion of mild steel using carbon dots-montmorillonite hybrid materials

Author

Ma, Liang, Wang, Qiang, Yang, Haini, Zhang, Da Quan, and Wu, Wei

Published

2024

20. Study on Initial Corrosion Behavior of Arc-thermally Spray Zn, Zn–Al, and Al–Mg Coatings Exposed in Atmospheric Environment for One-Year

Author

Nakano, Atsushi, Toyota, Yuki, Morita, Chihiro, Yasui, Kentaro, Oshikawa, Wataru, and Yonezawa, Noboru

Published

2024

21. Corrosion mechanism of Zn–Al–Mg-coated steel in simulated polluted marine atmosphere

Author

Ning, Pei-dong, Xiao, Li-yuan, Wang, Jin, Liu, Qian-qian, and Xiao, Kui

Published

2024

22. Study on the Atmospheric Corrosion of Galvanized Steel in the Anhui Province Power Grid and Its Influence Law#br# #br#

Author

ZHAO Qian, ZHANG Jie, LI Lemin, MIAO Chunhui, BIAN Yafei, TENG Yue, TANG Wenming

Subjects

power grid equipment, galvanized steel, atmospheric corrosion, gray relation analysis, environmental factor, Materials of engineering and construction. Mechanics of materials, TA401-492, Technology

Abstract

In order to evaluate the corrosion state of power grid galvanized steel components in the atmospheric environment of Anhui Province, galvanized steel samples, which were naturally exposed for 1 and 3 a, respectively, were analyzed using scanning electron microscopy(SEM), energy-dispersive X-ray spectroscopy(EDX) and X-ray diffractometer(XRD) to investigate the compositions and morphologies of the corrosion products, thereby revealing their atmospheric corrosion mechanisms. Meanwhile, the corrosion rates of the galvanized steel samples were determined using the weight-loss method, combined with grey correlation analysis, to ascertain the influence law of major environmental factors on the atmospheric corrosion rate of the galvanized steel samples. Results showed that the atmospheric corrosion products of the galvanized steel samples consisted of ZnO and minor amounts of Zn5(OH)6(CO3)2 and Zn4(OH)6SO4. The surface of the corrosion layer featured cellular protrusions composed of flaky Zn5(OH)6(CO3)2 and Zn4(OH)6SO4, forming chrysanthemum-like patterns. The structure of the corrosion layer was dense and closely bonded to the galvanized layer, providing effective protection, and thus, the corrosion degree of the galvanized steel was low. The major environmental factors affecting the atmospheric corrosion rate of the galvanized steel samples in Anhui Province were ranked as follows: temperature > relative humidity > O3 > NO2 > PM2.5 > PM10 > SO2. Temperature and atmospheric relative humidity had a more significant impact, whereas the influence of SO2 was minimal.

Published

2024

23. A Comparative Investigation of Corrosion Behavior and the Concurrent Acoustic Emission of AZ31 Mg Alloy under NaCl and Na2SO4 Solution Droplets.

Author

Kaige Wu, Kaita Ito, and Manabu Enoki

Abstract

In this work, corrosion behavior and the concurrent acoustic emission (AE) signals of AZ31 alloy under NaCl and Na2SO4 solution droplets were comparatively investigated in combination with in-situ optical microscopy observations. It was observed that after a short initial corrosion accompanied by the growth and rupture of H2 bubbles, the later corrosion behavior of AZ31 alloy mainly developed into filiform corrosion under NaCl solution droplet and pitting corrosion under Na2SO4 solution droplet. AE signals were detected in both cases. In particular, AE parameters of amplitude and duration were found to well identify filiform and pitting corrosion. AE signals were mainly correlated with the observed evolution of H2 bubbles of different shapes and positions, i.e., regularly round bubbles grew and ruptured at the filament head near the metal surface during filiform corrosion; whereas irregularly-shaped bubbles grew and ruptured at the pit mouth during pitting corrosion. [ABSTRACT FROM AUTHOR]

Published

2024

24. Atmospheric corrosion acceleration effect on commercial aluminum alloys in current-carrying condition.

Author

Gao, Yan, Li, Qiubo, Wu, Wei, Wang, Qiwei, Su, Yizhe, Zhang, Junxi, Lin, Deyuan, and Xia, Xiaojian

Subjects

*SALT spray testing, *CORROSION in alloys, *CORROSION & anti-corrosives, *ELECTRIC power distribution grids, *CORROSION resistance, *ALUMINUM alloys

Abstract

Purpose: The purpose of this paper is to study the effect of current-carrying condition on the electrochemical process and atmospheric corrosion behavior of the commercial aluminum alloys. Design/methodology/approach: Potentiodynamic polarization tests were performed to study the electrochemical process of the aluminum alloys. Salt spray tests and weight loss tests were carried out to study the atmospheric corrosion behavior. The corrosion morphology of the alloys was observed, and the products were analyzed. Findings: The corrosion process of four aluminum alloys was accelerated in the current-carrying condition. Moreover, the acceleration effect on A2024 and A7075 was much stronger than that on A1050 and A5052. The main factors would be the differences in microstructure and corrosion resistance between these alloys. As the carried current increased, the corrosion rate and corrosion current density of the aluminum alloys gradually increased, with the protection of the corrosion product film decreasing linearly. Originality/value: This is a recent study on the corrosion behavior of conductors under current-carrying condition, which truly understands the corrosion status of power grid materials. Relevant results provide support for the corrosion protection and safe service of aluminum alloy in power systems. [ABSTRACT FROM AUTHOR]

Published

2024

25. Comparison of the Cathodic Protection of Epoxy Resin Coating/Zinc-Rich Coatings on Defective Areas under Atmospheric and Immersion Conditions: The Secondary Activation of Zinc Particles.

Author

Zhang, Wei, Xia, Wenting, Chen, Zhiwei, Zhang, Guoqing, Qian, Sicheng, and Lin, Zhifeng

Subjects

CATHODIC protection, WEATHER, ZINC, SURFACE coatings, SURFACE analysis, EPOXY resins, EPOXY coatings

Abstract

The cathodic protection provided by epoxy coating/epoxy zinc-rich coatings on defective areas under atmospheric and immersion conditions was studied via a Q235 wire beam electrode (WBE), scanning electron microscopy, X-ray diffraction, and surface morphology analysis. The results showed that the cathodic protection processes under the two test conditions displayed significant differences. The effective protection time of the defective area under the atmospheric condition was 1.7 times that under the immersion condition. Compared with the immersion condition, zinc particles in zinc-rich coatings under the atmospheric condition exhibited higher cathodic protection efficiency. The possible activation mechanism of zinc particles under the two conditions was elucidated. [ABSTRACT FROM AUTHOR]

Published

2024

26. Simultaneous measurement of corrosion potential and hydrogen penetration using double-head scanning Kelvin probe

Author

Kiyonobu Sugae, Yasuyo Otsuka, and Takayuki Kamimura

Subjects

Hydrogen penetration, Atmospheric corrosion, Scanning Kelvin Probe, Industrial electrochemistry, TP250-261, Chemistry, QD1-999

Abstract

High-strength steels, such as high-strength bolts or steel plates are considerably sensitive to hydrogen embrittlement. Serious safety problems in steel structures are possible, because they are exposed to atmospheric condition containing chloride ions. Embrittlement is induced by hydrogen penetration during atmospheric corrosion. We developed Double-Head Scanning Kelvin Probe (DHSKP) equipment to clarify the relationship between the corrosion process and hydrogen permeation. Each probe can simultaneously measure the corrosion potential on the corroded side and surface potential on the hydrogen-detecting side at the same time. In this study, we investigated the correlation between the corrosion potential and hydrogen permeation under changing conditions from wet to dry processes on the surface of a steel sample. During the drying process, the corrosion potential at the rust layer that precipitated in the early wetting condition showed a less noble potential locally, whereas the surface potential of the Pd film on the hydrogen detection side showed a less noble potential locally. The hydrogen permeation sites were limited to small spots in the opposite area, where the corrosion potential showed a less noble local-potential during the drying process. Hydrogen penetration by corrosion likely occurs in acidic liquids under the rust layer during the drying process.

Published

2024

27. Utilization of Sodium Polyacrylate Hydrogels in the Sacrificial Anode Cathodic Protection Method for Steel Members at the Atmospheric Environment

Author

Xu, Jie and Kainuma, Shigenobu

Published

2024

28. Construction and Application of a Likelihood Function for Pitting Corrosion with Confidence Bounds for Structure Integrity

Author

Hoskinson, Joshua, Navidi, William, and Shayer, Zeev

Published

2024

29. Nanostructured Diamond Particles in the Development of Protective Anticorrosion Epoxy Coatings.

Author

Kondratenko, Yu. A., Golubeva, N. K., Ivanova, A. G., Dolmatov, V. Yu., Ugolkov, V. L., Zagrebelny, O. A., Alekseev, V. A., Nguyễn, Chi Văn, and Kochina, T. A.

Subjects

*NANODIAMONDS, *EPOXY coatings, *EPOXY resins, *LINEAR polarization, *CONTACT angle, *BENDING strength

Abstract

In this work, nanostructured diamond particles are considered as fillers for epoxy coatings. Nanodiamonds and a diamond charge obtained as a result of detonation synthesis from a mixture of TNT and hexogen are characterized by IR spectroscopy, scanning electron microscopy, and thermal analysis. It has been shown that nanodiamonds are characterized by thermal stability up to 450°C and increase the thermal stability of epoxy coatings. The influence of nanodiamonds and diamond charge, depending on their quantity and synthesis conditions, on the physical and mechanical properties (hardness, contact angle, adhesion, impact and bending strength) of epoxy coatings is studied. The results of a study of the anticorrosion resistance of epoxy coatings with 10 wt % nanodiamonds compared to polymethylphenylsiloxane resin coating using methods of potentiodynamic polarization, linear polarization resistance, and impedance measurements, supplemented by field tests in humid tropical climates are presented. [ABSTRACT FROM AUTHOR]

Published

2024

30. Estudio cinético de la corrosión atmosférica de larga exposición para acero al carbono y acero galvanizado expuestos en la ciudad de Medellín (Colombia).

Author

MONTOYA ALZATE, DIEGO ALEJANDRO and CASTAÑO GONZÁLEZ, JUAN GUILLERMO

Subjects

*MILD steel, *GALVANIZED steel, *CARBON steel, *CENTRAL business districts, *CARBON steel corrosion

Abstract

Atmospheric corrosion is one of the natural phenomena with the greatest impact on the integrity of metallic infrastructures worldwide and especially in tropical environments. However, most atmospheric corrosion studies carried out in natural environments do not exceed 5 years of exposure, and studies with results of 10 or more years are even fewer. This study evaluates the corrosion kinetics of carbon and galvanized steels exposed in the downtown area of Medellín, classified as a moderate aggressiveness environment, from results obtained at 1, 2, 5, 8 and 11 years. For both materials, a corrosion kinetic equation was obtained from Log-Log plots of mass loss, useful for making long-term predictions of the deterioration of structures exposed to the atmosphere. The corrosion of the galvanized was approximately between 10 to 17 times lower than that of carbon steel. [ABSTRACT FROM AUTHOR]

Published

2024

31. The Effect of Exposure Condition on the Composition of the Corrosion Layers of the San Carlone of Arona.

Author

Petiti, Chiara, Salvadori, Barbara, Vettori, Silvia, Welter, Jean Marie, Guzmán García Lascurain, Paulina, Toniolo, Lucia, and Goidanich, Sara

Subjects

*COPPER, *OXALATES

Abstract

The Colossus of San Carlo Borromeo, named San Carlone for its large dimensions, represents a unique opportunity to study the long-term effects of atmospheric corrosion on patina formation on historic copper sheets. The sculpture's large dimensions, complex geometry, direct visitor interaction, and exposure conditions generate different microclimates. The purpose of this study is to understand how and to what extent these microclimates affect the formation of the copper patinas. The results show that microclimates play a key role in patina formation: in external surfaces exposed to rain, the main constituent is brochantite, whereas a wider variety of corrosion products have been found in sheltered and internal surfaces, such as antlerite, atacamite, copper oxalate, posnjakite, and anglesite. [ABSTRACT FROM AUTHOR]

Published

2023

32. Effect of Frequency and Ratio of Wet/Dry Stages in Cyclic Corrosion Tests on Localized Corrosion of Complex-Phase High-Strength Steel.

Author

Yoo, Jin-Seok, Kim, Geon-Il, and Kim, Jung-Gu

Subjects

*AUTOCATALYSIS, *STEEL, *STEEL corrosion, *FERRIC oxide, *PITTING corrosion

Abstract

This study delves into the atmospheric corrosion behavior of chromium-free complex-phase (CP) steel, specifically investigating the influence of wet/dry frequency and ratio in cyclic corrosion tests (CCT). The study employs a modified ISO 14993 standard CCT method, which involves salt spray, dry, and wet stages. After 15 and 30 CCT cycles, mass loss, maximum corrosion depth, and corrosion products were analyzed to gain insights into corrosion mechanisms. In general, increasing the frequency and wet/dry stage ratio in CCT extends the time for autocatalytic reactions to occur, leading to accelerated localized CP steel corrosion and increased pitting factors. However, as the rust layer thickens, uniform corrosion may also intensify, so careful considerations are necessary. This study underscores the importance of controlling the frequency and ratio of wet/dry stages in CCT for effectively analyzing localized corrosion behavior in specimens. [ABSTRACT FROM AUTHOR]

Published

2023

33. The role of microbes in the inhibition of the atmospheric corrosion of steel caused by air pollutants.

Author

Oshin, Temitope Alaba, Fakinle, Bamidele Sunday, and Oyewole, Olamide

Subjects

AIR pollutants, STEEL corrosion, AIR pollution, CORROSION prevention, CORROSION & anti-corrosives, MICROBIOLOGICALLY influenced corrosion, MICROORGANISMS

Abstract

Due to the presence of corrosive contaminants in the air, metals naturally corrode when exposed to the environment. Air pollution, in conjunction with climate conditions, may significantly deteriorate outdoor materials, especially metals and hence, the need for corrosion control. Using inhibitors is a powerful strategy that is frequently employed for corrosion prevention and control. Chemical inhibitors are often used. However, due to their low effectiveness and stringent environmental regulations, the majority of chemical corrosion inhibition techniques are becoming less desirable. For this reason, there is an increasing interest in and focus on biological inhibition approaches, which most recently have included the use of microbes. Microbiologically-influenced corrosion inhibition (MICI) is apparently far more complex than traditional corrosion inhibition procedures. A current overview of the mechanisms that have been used or may be efficient for MICI technologies is important in order to facilitate the advancement of MICI and its practical industrial applications, especially for atmospheric corrosion caused by air pollutants, for which there is little information in the reviewed literature. Therefore, this review addresses the role of microbes, like Pseudomonas putida, in the inhibition of atmospheric corrosion of metals and brings the reader up-to-date on the few literatures existing on the subject. The review describes and characterizes MICI for atmospheric corrosion as a developing field still in need of enthusiastic researchers to further investigate the area in order to establish useful methodologies, procedures, and technologies for later adoption in industrial terrains and applications. [ABSTRACT FROM AUTHOR]

Published

2023

34. Exploration of rice husk ash as a green corrosion inhibitor immersed in NH4Cl 7.5 % solution

Author

Agus Paul Setiawan Kaban, Johny Wahyuadi Soedarsono, Mochammad Syaiful Anwar, Wahyu Mayangsari, Ahmad Maksum, Aga Ridhova, Rini Riastuti, Dedy Iskandar, and Ayende

Subjects

Green corrosion inhibitor, Rice husk ash, Liquid smoke inhibitor, Atmospheric corrosion, NH4Cl corrosion protection, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The study reports the development of a liquid smoke solution of rice husk ash (RHA) as a green corrosion inhibitor in NH4Cl solution in approaching corrosion protection for refinery facilities. The recent utilization of RHA has a partial solution to address the possible chemical to form a filming layer to disconnect bare metal and their environment. This work prepared the RHA solution by condensing the RHA vapor before adding it to various concentrations. The corrosion test of potentiodynamic and electrochemicals intends to discover the inhibitor's corrosion resistance before examining the electronic transition corresponding to the contribution of several functional groups using Ultraviolet Visible (UV–Vis) and Fourier-Transform Infrared Spectroscopy (FTIR). Surface evaluation intends to unveil the nature of the corrosion by utilizing the Scanning Electronic and Atomic Force Microscope. The corrosion test result shows the depression of corrosion rate to 0.120 mmpy with high efficiency beyond 96 % in the addition of 7.5 ppm RHA inhibitor. The greater Nyquist semicircle diameter at high concentrations increases the adsorption of the RHA on the surface of C1018. The electronic transition of n–π* and π –π* shows an extensive contribution of CC, CO, and –OH based on the UV–Vis and FTIR test. The formation of a complex compound of Fe-(NH4Cl-RHA)n blocks the corrosion active sites to reduce the corrosion. This study paves the way for using RHA as an organic compound under NH4Cl conditions, such as in a refinery process facility.

Published

2024

35. Atmospheric corrosion of carbon steel: Results of one-year exposure in an andean tropical atmosphere in Colombia

Author

Ana C. Santa, Diego A. Montoya, Jose A. Tamayo, Maryory A. Gómez, Juan G. Castaño, and Libia M. Baena

Subjects

Atmospheric corrosion, Carbon steel, Tropical atmosphere, Corrosion rate, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

In this study was examined the response of carbon steel to atmospheric corrosion after one-year exposure in Valle de Aburrá, a subregion located in northwestern Colombia. The study involved the assessment of material mass loss and corrosion rate, the characterization of atmospheric aggressiveness, and the analysis of the morphology and composition of corrosion products in five different sites. Climatological and meteorological factors were assessed by testing for chloride content, sulfur dioxide levels, and time of wetness (TOW). The analysis of corrosion products was conducted using scanning electron microscopy (SEM), X-ray diffraction (XRD), and Raman spectroscopy. Based on corrosion rates, two sites exhibited a more aggressive environment, with a corrosivity category of C3, while the remaining sites were categorized as C2. The study confirmed the presence of lepidocrocite and goethite phases on the surface of carbon steel at all test sites. Data analysis revealed that both the TOW and the industrial activity significantly influence the corrosion of this metal.

Published

2024

36. Insights into sulfur and hydrogen sulfide induced corrosion of sintered nanocopper paste: A combined experimental and ab initio study

Author

Wei Chen, Xu Liu, Zhoudong Yang, Dong Hu, Xi Zhu, Xuejun Fan, Guoqi Zhang, and Jiajie Fan

Subjects

Sintered nanocopper, Atmospheric corrosion, Sulfur and hydrogen sulfide, Density functional theory, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

The power semiconductor joining technology through sintering of copper nanoparticles is well-suited for die attachment in wide bandgap (WBG) semiconductors, offering high electrical, thermal, and mechanical performances. However, sintered nanocopper will be prone to degradation resulting from corrosion in sulfur-containing corrosive environments such as offshore areas. In this study, experiments, including aging test and corrosion characterization, and simulations based on density functional theory (DFT) studies were conducted to explore the corrosion behavior and mechanism of elemental sulfur (S8) and hydrogen sulfide (H2S) on sintered nanocopper. The experimental results indicated that loose corrosion products were observed on the sintered nanocopper during the ageing process involving S8, and compact layered corrosion products formed during the ageing process involving H2S. Furthermore, similar corrosion product compositions (Cu2O, Cu2S, CuO, CuS, and potentially Cu2SO4 or CuSO4) were observed in both the S8- and H2S-ageing processes. However, the S8-ageing process exhibited more noticeable corrosion penetration. This was explained in simulations results: the unsaturated Cu sites on the oxide layer [Cu2O(111)] of the sintered nanocopper could adsorb both H2S and S8, while the saturated Cu sites only exhibited the potential to adsorb S8.

Published

2024

37. The Effect of Exposure Condition on the Composition of the Corrosion Layers of the San Carlone of Arona

Author

Chiara Petiti, Barbara Salvadori, Silvia Vettori, Jean Marie Welter, Paulina Guzmán García Lascurain, Lucia Toniolo, and Sara Goidanich

Subjects

historic copper, patina of corrosion layers, atmospheric corrosion, cultural heritage, long term patina formation, Archaeology, CC1-960

Abstract

The Colossus of San Carlo Borromeo, named San Carlone for its large dimensions, represents a unique opportunity to study the long-term effects of atmospheric corrosion on patina formation on historic copper sheets. The sculpture’s large dimensions, complex geometry, direct visitor interaction, and exposure conditions generate different microclimates. The purpose of this study is to understand how and to what extent these microclimates affect the formation of the copper patinas. The results show that microclimates play a key role in patina formation: in external surfaces exposed to rain, the main constituent is brochantite, whereas a wider variety of corrosion products have been found in sheltered and internal surfaces, such as antlerite, atacamite, copper oxalate, posnjakite, and anglesite.

Published

2023

38. Evolution of corrosion degradation in galvanised steel bolts exposed to a tropical marine environment

Author

Enobong Felix Daniel, Changgang Wang, Chao Li, Junhua Dong, Inime Ime Udoh, Dongjiu Zhang, Wenan Zhong, and Sheng Zhong

Subjects

Bolt-nut fastener, Galvanised steel, Bolt threads, Crevice, Chloride ions, Atmospheric corrosion, Mining engineering. Metallurgy, TN1-997

Abstract

The time-dependent degradation of galvanised steel bolts subjected to marine atmospheric exposure for a maximum period of 2 years in the Wenchang marine environment of Hainan province, South China, was investigated. The results showed that the zinc coating used as a protective surface finish deteriorated quickly due to the harsh environmental conditions. The deterioration of the zinc coating resulted in premature corrosion of the underlying steel substrate as early as 6 months. The main Zn corrosion products found at the initial exposure time were simonkollite (Zn5(OH)8Cl2·H2O), hydrozincite (Zn5(OH)6(CO3)2), and zincite (ZnO). At subsequent exposure times, major steel corrosion products such as lepidocrocite (γ-FeOOH), akaganeite (β-FeOOH), goethite (α-FeOOH), magnetite (Fe3O4), and maghemite (γ-Fe2O3) were detected. Fe3O4/γ-Fe2O3 was consistently found in the rust formed at both the exposed and crevice thread regions between 6 and 24 months of exposure. Based on the geometry of the bolt fastener, the corrosion rate and phase composition distribution varied between the two regions. Differences in oxygen exposure levels, corrosion kinetics, and electrochemical stability of the corrosion products were primary factors in these distinctive corrosion behaviours.

Published

2023

39. Effect of static elastic stress on the corrosion behavior of 7A04 aluminum alloy exposed to real marine atmospheric environment

Author

Jie Zhou, Bin Wang, Chunmiao Liu, and Jie Liu

Subjects

Atmospheric corrosion, Thin liquid film, Static elastic stress, 7A04 alloy, Corrosion mechanism, Mining engineering. Metallurgy, TN1-997

Abstract

Aluminum alloy structural materials are widely subjected to the interactive effect of atmospheric corrosion under thin liquid film and elastic stress during the actual service. This study utilized the real marine atmospheric environment as the corrosion environment of thin liquid film for 7A04 aluminum alloy, and the specially designed outdoor device was used to apply varying levels of static elastic tensile stress at the same time, and then the corrosion damage behavior of 7A04 alloy under the interactive effect was studied. The research indicates that the 7A04 alloy suffers from pitting and exfoliation corrosion under the test conditions. The applied elastic tensile stress can accelerate the corrosion damage process of 7A04 alloy, and the degree of acceleration increases with increasing stress levels and exposure time. Moreover, the applied stress can also significantly accelerate the deterioration of the mechanical properties of 7A04 alloy, which has a more prominent effect on the elongation after fracture. Additionally, the corrosion mechanism of 7A04 alloy under the interactive effect was also discussed in this paper.

Published

2023

40. The Effect of Microstructure on Local Corrosion Product Formation during Initial SO2-Induced Atmospheric Corrosion of ZnAlMg Coating Studied by FTIR-ATR FPA Chemical Imaging

Author

Dan Persson, Dominique Thierry, and Nathalie LeBozec

Subjects

atmospheric corrosion, FTIR-FPA chemical imaging, infrared reflection absorption spectroscopy, SO2, ZnAlMg-coated steel, Chemical technology, TP1-1185

Abstract

The initial atmospheric corrosion of ZM (ZnAlMg)-coated steel in humid air (85% RH) and humid argon (85% RH) containing 320 ppb SO2 was studied using in situ infrared reflection absorption spectroscopy (IRRAS), FTIR-ATR focal plane array (FPA) imaging and SEM-EDS. The corrosion products formed in humid air containing SO2 are mainly composed of magnesium sulphites and sulphates, with sulphite-containing corrosion products formed initially while the contribution from sulphates increased with exposure time. The results from FTIR-FPA imaging and SEM-EDS showed that the magnesium sulphite and sulphate are formed mainly on eutectic phases with a higher quantity of corrosion products formed on the binary eutectic (Zn-MgZn2) phases. This is due to presence of microgalvanic elements with the zinc-rich phases as the main sites for the cathodic oxygen reduction while the anodic reactions take place on the eutectic areas. Sulphate content is the highest on the binary eutectic phases, due to the microgalvanic effects and the production of oxidants by the cathodic reaction, which increases the oxidation of sulphite to sulphate.

Published

2023

41. Atmospheric Corrosion

Author

Xiaogang, Li and Kuangdi, Xu, editor

Published

2024

42. Research on Atmospheric Corrosion of 45# Steel in Low-Latitude Coastal Areas of China

Author

Lihong Liu, Bo Zhang, Guoqiang Liu, Liyan Wang, Jiao Li, Peng Yuan, Zi Yang, and Zhiyuan Feng

Subjects

atmospheric corrosion, marine corrosion, carbon steel, corrosion, 45# steel, Mining engineering. Metallurgy, TN1-997

Abstract

Urgent action is required to mitigate the severe corrosion of carbon steel in low-latitude regions. The combination of high humidity, temperature, and salinity in these areas significantly accelerates steel corrosion, posing a substantial threat to the service safety of offshore engineering equipment. This study aims to elucidate the atmospheric corrosion mechanisms of 45# steel in low-latitude coastal areas. Samples of 45# steel were exposed to atmospheric conditions over various durations in the following three geographically distinct regions: Guangzhou, Wanning, and the South China Sea. The corrosion rates were calculated using weight loss tracking and potentiodynamic polarization measurements, while surface corrosion products were examined using X-ray diffraction (XRD) tests. The findings indicate a clear correlation between the corrosion rate of 45# steel and the latitude and specific location of the test area, with the highest to lowest rates observed in the South China Sea, Wanning, and Guangzhou, respectively. Similarly, the extent of corrosion rust penetration in defective coatings followed the same order. Moreover, the protection ability index (PAI) calculations revealed that none of the tested samples formed a protective corrosion film.

Published

2024

43. Corrosion of Carbon Steel in a Tropical Marine Environment Enhanced by H2S from Sargassum Seaweed Decomposition

Author

Mahado Said Ahmed, Benoit Lescop, Julien Pellé, Stéphane Rioual, Christophe Roos, and Mounim Lebrini

Subjects

atmospheric corrosion, Sargassum seaweed, carbon steel, H2S, Cl− ion, SEM/EDS, Mining engineering. Metallurgy, TN1-997

Abstract

This article aims to investigate the atmospheric corrosion of carbon steel in a marine environment abundant in hydrogen sulfide (H2S) resulting from the decomposition of Sargassum seaweed. To accomplish this, four sites with varying degrees of impact were chosen along the coast of Martinique. The corrosion rates of steel were evaluated through mass loss measurements. After one year of exposure, the corrosion rates were notably high, particularly in atmospheres rich in Cl− ions and H2S, ranging from 107 µm to 983 µm. Complementing these findings, surface and product morphologies were characterized using scanning electron microscopy (SEM) coupled with energy dispersive X-ray spectroscopy (EDS) and X-ray diffraction (XRD). These analyses revealed a significant degradation of the corrosion surface in the most affected atmospheres compared to those unaffected by Sargassum seaweed strandings. Lepidocrocite (γFeOOH) was identified as the predominant product regardless of the exposure atmosphere. However, goethite (αFeOOH) was found to be present in atmospheres most impacted by H2S.

Published

2024

44. Effect of Pulse Current Amplitude on Corrosion Protection of Mild Steel in the Atmospheric Environment

Author

Wan Ahmad, W. M. H., Salleh, S. H., Shamsudin, S. R., Gunasilan, Mahalaksmi, Mohd Salleh, Mohd Arif Anuar, editor, Che Halin, Dewi Suriyani, editor, Abdul Razak, Kamrosni, editor, and Ramli, Mohd Izrul Izwan, editor

Published

2023

45. Materials Degradation: Metallic Materials

Author

Pattnaik, Amulya Bihari, Parida, Smrutiranjan, Ramachandran, Divakar, Editorial Board Member, Basu, Bikramjit, Editorial Board Member, Chattoraj, I, Editorial Board Member, Prasad, N. Eswara, Editorial Board Member, Manna, Indranil, Editorial Board Member, Gokhale, Amol A., Editorial Board Member, Reddy, G. Madhusudan, Editorial Board Member, Shrivastava, Amber, editor, Arora, Amit, editor, Srivastava, Chandan, editor, Dhawan, Nikhil, editor, and Shekhar Singh, Sudhanshu, editor

Published

2023

46. Risk Analysis Related to the Corrosıon of Atmospheric Storage Tanks: A Multimethodological Approach Using the FRAM and the ELECTRE-MOr Methods

Author

Moreıra, Érıck Pınto, Costa, Igor Pınheıro de Araújo, Maınıer, Fernando Benedıcto, Gomes, Carlos Francısco Sımões, dos Santos, Marcos, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Ranganathan, G., editor, Bestak, Robert, editor, and Fernando, Xavier, editor

Published

2023

47. ANALYSIS OF CORROSION RATE AND REMAINING LIFE OF STEEL ON PIPELINES AT PKS PTPN 1 TANJUNG SEUMANTOH

Author

Muhammad Zulfri, Nazaruddin Abdul Rachman, and Muhammad Isra

Subjects

structural steel, weight loss, corrosion rate, atmospheric corrosion, remaining life, Mechanical engineering and machinery, TJ1-1570

Abstract

Corrosion is a major cause of early failure in palm oil mill infrastructure in Aceh, Indonesia. Therefore, the aim of this study is to analyze the corrosion rate of steel used in the palm oil mill industry and determine the remaining life of the steel. Round bars and plates made of steel were used as exposure samples. This sample was cleaned of impurities and ground with sandpaper to obtain a 600 grating, then washed with clean water and rinsed with strong liquid, then presented to the climate at the PTPN 1 Tanjung Seumantoh palm oil mill so that it could see the rate of steel erosion due to corrosion. For exposure, steel specimens are placed on racks, and weight measurements are taken once a month to determine corrosion rate values using the ASTM G50 standard. In addition, steel thickness measurements were also carried out in 2021 and 2022 to calculate the corrosion rate using the Standard API 570 standard. Research results of the remaining life of the pipe on the wall tube is about 32 years. the remaining life for the generating pipe is about 29 years, and the remaining life for the heater pipe is about 11 years. from the calculation results obtained the longest remaining life is obtained on the wall pipe while the shortest remaining life of the pipe is found in the heater pipe because the pipe is always heated.

Published

2023

48. Study on corrosion mechanism of Al–Zn coatings in the simulated polluted marine atmosphere

Author

Liyuan Xiao, Qianqian Liu, Jin Wang, Nana Chen, Junhang Chen, Jialiang Song, Xin Zhang, and Kui Xiao

Subjects

Al–Zn coating, EIS, Polarization curve, Atmospheric corrosion, Marine atmosphere, Mining engineering. Metallurgy, TN1-997

Abstract

The corrosion behavior of Al–Zn coatings on steel sheets in simulating polluted marine atmosphere was systematically evaluated by weight loss tests, potentiodynamic polarization curves, electrochemical impedance spectroscopy, and acid salt spray test. The results demonstrated that the AI-Zn coating produced a passivation film of Al2O3 with good corrosion resistance, forming a thick and dense layer of insoluble corrosion products. In addition, the corrosion products such as Zn5Cl2(OH)8·H2O and NaZn4(SO4)Cl(OH)6•6H2O hindered the diffusion of corrosive substances into the coating and thus inhibited further corrosion.

Published

2023

49. Atmospheric corrosion in the metal pool of Ali Qapu palace in Isfahan: an experimental study

Author

Mehri Raoufifar and Omid Oudbashi

Subjects

Ali Qapu palace, Metal pool, Copper, Atmospheric corrosion, Urban environment, Air pollutants, Fine Arts, Analytical chemistry, QD71-142

Abstract

Abstract Isfahan, the capital of Iran during the Safavid period (1501–1736 CE), houses the Ali Qapu Palace. It was constructed during the Safavid period to be used as the royal court and a place for settling the affairs of the country. The palace was built in five stages; the final stage was the porch which contains a pool at its centre. The perimeter of the pool is made of white marble, the floor and walls are covered with metal sheets to which the marble is attached. Today, the dry pool is exposed to the urban environment of the metropolis of Isfahan. This study investigates the composition and the corrosion mechanism of the pool using optical microscopy, ICP-OES, SEM–EDS and X-ray diffraction techniques. The results show that the pool’s cover is made of a large number of sheets of copper joined together by copper and lead nails. The forging (cold-working and annealing) method was used to form the sheets. The corrosion products formed on the surface of the copper sheets are copper oxide and copper trihydroxychlorides. The mechanism of corrosion in the metal pool, including copper oxidation, is due to the formation of copper (II) compounds resulting from the reaction with Cl-contaminated airborne particulate matters (dust).

Published

2023

50. Accelerating stabilization of weathering steel through rust modification pre-corrosion treatment

Author

Qiang Hu, Shanwu Yang, Xu Zhang, Guangjie Da, and Wenhua Zhang

Subjects

Weathering steel, Atmospheric corrosion, Rust stabilizing surface treatment, Rust modification, Pre-corrosion, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

To accelerate the formation of the protective rust layer on weathering steel, a new pre-corrosion method containing a replacement reaction was explored. This process was mixed with Cu in the pre-corrosion rust layer to imitate the enrichment of alloying elements through long-term corrosion. By using various analysis methods, the initial corrosion behavior of weathering steel and carbon steel with/without pre-corrosion treatment was studied under indoor wet-dry cycle conditions. The results showed that the pre-corrosion treatment covers the steel surface with a rust layer containing high-concentration Cu. Subsequently, the corrosion uniformity of the weathering steel was significantly improved, and the protective performance of corrosion products was enhanced due to the high concentration of Cu enrichment. This technology is expected to provide a new way to perfect the service performance of weathering steel at the initial stage of application.

Published

2024