Your search keyword '"Yeganeh M"' showing total 31 results

1. Effects of microstructure and texture after thermomechanical treatments on corrosion behavior of AISI 321 pipeline austenitic stainless steel

Author

Salehi, M., Eskandari, M., and Yeganeh, M.

Published

2022

2. An investigation on the biological and corrosion response of PEI coating on the AZ31 alloy.

Author

Khoshnood, Negin, Yeganeh, Mahdi, Zaree, Seyed Reza Alavi, and Zamanian, Ali

Subjects

BIODEGRADATION, CATIONIC polymers, ALLOYS, CORROSION resistance, CYTOCOMPATIBILITY, ELECTROSTATIC interaction, SURFACE coatings

Abstract

AZ31 Mg alloy surface was coated with polyethyleneimine (PEI) coating with anticorrosive properties in a two-step process to improve corrosion resistance. In the first step, alkaline passivation was followed by a PEI cationic polymer dip coating based on chemical and electrostatic interactions. AZ31 Mg alloy coated with PEI showed better corrosion resistance in PBS than uncoated alloy, based on electrochemical tests including potentiodynamic polarization and electrochemical impedance spectroscopy. Biocompatibility and in vitro cell behavior tests revealed good adhesion and proliferation in the presence of amine groups in the PEI structure. Furthermore, the antibacterial research showed that PEI-coated AZ31 had a great antibacterial activity. These findings suggest that PEI-coated AZ31 Mg implants are suitable for orthopedic applications as bioactive and protective biomaterials. [ABSTRACT FROM AUTHOR]

Published

2023

3. Corrosion and the antibacterial response of epoxy coating/drug-loaded mesoporous silica.

Author

Yeganeh, Mahdi, Rabizadeh, Taher, Rabiezadeh, Mohammad Sajad, Kahvazizadeh, Maryam, and Ramezanalizadeh, Hossein

Subjects

EPOXY coatings, MESOPOROUS silica, EPOXY resins, FIELD emission electron microscopy, X-ray photoelectron spectroscopy, ESCHERICHIA coli

Abstract

The present study aims to investigate the loaded mesoporous silica with sulfamethazine and the effect of its dispersion in the epoxy coating on the corrosion behavior of coated mild steel. The composite coating was synthesized by mixing 1wt. % mesoporous silica without (Mes) and with sulfamethazine (Mes-S) and an epoxy polymer. Electrochemical impedance spectroscopy (EIS), field emission scanning electron microscopy (FESEM), and X-ray photoelectron spectroscopy (XPS) were used to analyze corrosion resistance of the epoxy coating containing Mes and Mes-S. Results revealed the higher corrosion resistance of epoxy/Mes-S in the NaCl solution after 1000 h of immersion compared to epoxy/Mes, indicating higher barrier behavior of epoxy/Mes-S due to the inhibition effect of sulfamethazine. Specifically, epoxy/Mes-S exhibited a Rct of 67 kΩ cm2 after 1000 h of immersion, while the epoxy/Mes and epoxy showed Rct of 9.8 and 7 kΩ cm2, respectively. Besides, it was shown that the epoxy/Mes-S coating could inhibit the growth of E. coli as the antibacterial coating due to the effect of sulfamethazine on the bacteria. [ABSTRACT FROM AUTHOR]

Published

2023

4. Advanced Micro/Nanocapsules for Self-Healing Coatings.

Author

Kartsonakis, Ioannis A., Kontiza, Artemis, and Kanellopoulou, Irene A.

Subjects

INORGANIC organic polymers, SERVICE life, CARDIOVASCULAR system, INTERNET security, BIOLOGICAL systems

Abstract

The concept of intelligence has many applications, such as in coatings and cyber security. Smart coatings have the ability to sense and/or respond to external stimuli and generally interact with their environment. Self-healing coatings represent a significant advance in improving material durability and performance using microcapsules and nanocontainers loaded with self-healing agents, catalysts, corrosion inhibitors, and water-repellents. These smart coatings can repair damage on their own and restore mechanical properties without external intervention and are inspired by biological systems. Properties that are affected by either momentary or continuous external stimuli in smart coatings include corrosion, fouling, fungal, self-healing, piezoelectric, and microbiological properties. These coating properties can be obtained via combinations of either organic or inorganic polymer phases, additives, and pigments. In this article, a review of the advancements in micro/nanocapsules for self-healing coatings is reported from the aspect of extrinsic self-healing ability. The concept of extrinsic self-healing coatings is based on the use of capsules or multichannel vascular systems loaded with healing agents/inhibitors. The result is that self-healing coatings exhibit improved properties compared to traditional coatings. Self-healing anticorrosive coating not only enhances passive barrier function but also realizes active defense. As a result, there is a significant improvement in the service life and overall performance of the coating. Future research should be devoted to refining self-healing mechanisms and developing cost-effective solutions for a wide range of industrial applications. [ABSTRACT FROM AUTHOR]

Published

2024

5. A Study of the Corrosion Resistance of 316L Stainless Steel Manufactured by Powder Bed Laser Additive Manufacturing.

Author

Ahuir-Torres, Juan Ignacio, Burgess, Andrew, Sharp, Martin Charles, Öpöz, Tahsin Tecelli, Malkeson, Sean P., Falkingham, Peter L., Darlington, Robert I., and Tammas-Williams, Samuel

Subjects

ELECTROLYTIC corrosion, CORROSION resistance, STAINLESS steel, LASER spectroscopy, STEEL manufacture

Abstract

Commercially available 316L (1.4404) stainless steel is commonly used for industrial filtration due to its combination of good material properties, particularly its corrosion resistance, which is a critical factor for filters in corrosive (e.g., saltwater) environments. Recently, laser powder bed fusion (LPBF) has enabled new more complex and efficient filtration pieces to be manufactured from this material. However, it is critical to know how the corrosion resistance is affected by this manufacturing strategy. Here, the corrosion resistance of LPBF manufactured 316L stainless steel is compared with wrought 316L sheet. The corrosion of the samples in saltwater was assessed with asymmetric electrochemical noise, potentiodynamic polarisation curve, and electrochemical impedance spectroscopy. The samples before and after corrosion were examined with scanning electron microscopy and energy-dispersive spectroscopy. The LPBF samples had higher corrosion resistance than the sheet samples and were more noble. The corrosion resistance of the LPBF sample increased with time, while the wrought sample corrosion resistance reduced over time. The corrosion mechanism of both samples was stable with time, formed of a passive film process and a bared material process. This paper presents the first study about the temporal evolution of the LPBF 316L stainless steel corrosion mechanism. [ABSTRACT FROM AUTHOR]

Published

2024

6. Sacrificial anode materials to protect marine grade steel structures: a review.

Author

Vaira Vignesh, Ramalingam and Sathiya, P.

Subjects

ZINC alloys, OFFSHORE structures, PROTECTIVE coatings, MARINE resources conservation, ENVIRONMENTAL protection, ALUMINUM-magnesium alloys, ALUMINUM alloys, MAGNESIUM alloys, ANODES

Abstract

Marine structures are constantly exposed to the corrosive effects of seawater, making effective corrosion protection crucial for their longevity and performance. Sacrificial anodes, commonly made of zinc, aluminum, or magnesium alloys, are widely employed to mitigate corrosion by sacrificing themselves to protect the steel structures. However, the selection and implementation of sacrificial anode materials present various challenges that need to be addressed. This paper explores the challenges associated with sacrificial anode materials for steel structures and provides potential solutions. To overcome these challenges, the paper proposes solutions such as using advanced alloy compositions, protective coatings, hybrid anode systems, and improved design considerations. Furthermore, the importance of monitoring techniques to assess the performance and remaining lifespan of sacrificial anodes is emphasized. Several case studies and experimental findings are discussed to illustrate the effectiveness and limitations of sacrificial anode materials based on zinc alloys, aluminum alloys, and magnesium alloys. The paper highlights the need for ongoing research and development efforts to address the evolving demands of corrosion protection in marine environments. [ABSTRACT FROM AUTHOR]

Published

2024

7. Functionalized Polypyrrole for Mild Steel Corrosion Protection in 15% HCl.

Author

Dua, Sachin, Prakashaiah, B. G., Arora, Nishtha, Saxena, Rakesh C., Ganguly, Sudip K., and Senthilkumar, T.

Abstract

Corrosion protection of mild steel (MS) substrate is critical to prolonging the life of service equipment in refineries and chemical industries. In petroleum refineries, drilling and acidizing pipe work with vast amounts of 15% HCl that induce corrosion of MS pipelines. Here, a novel pentadecyl phenol (originated from cashew nut shell liquid)-functionalized conjugated polypyrrole (MPY) was synthesized and demonstrated for MS corrosion inhibition at a 15% HCl environment. Pentadecyl units provide hydrophobicity and form interdigitating layer structures to cover the metal substrate, which leads to better corrosion mitigation. Electrochemical impedance spectroscopy (EIS) and potentiodynamic polarization (PDP) studies reveal the superior corrosion inhibition performance of MPY on MS under 15% HCl conditions. The corrosion protection efficiency was determined to be 67.93% over MS substrate in the presence of MPY from PDP studies compared with pure MS. [ABSTRACT FROM AUTHOR]

Published

2024

8. Multifunctional Inhibitors: Additives to Control Corrosive Degradation and Microbial Adhesion.

Author

Telegdi, Judit

Subjects

MICROBIAL adhesion, MICROBIOLOGICALLY influenced corrosion, ELECTROLYTIC corrosion, RATE coefficients (Chemistry), BASIC needs, ADHESION, MICROBIAL metabolites

Abstract

The chemical, electrochemical and microbiological corrosive degradation of metals is a versatile harmful problem that causes significant economic loss all over the world. The mitigation of these undesired processes needs basic knowledge on the mechanisms of processes in order to control these reactions with environmentally acceptable chemicals and techniques. This paper focuses on the up-to-date possibilities that help in the mitigation of chemical/electrochemical corrosion and, at the same time, in decrease the deposition of corrosion relevant microorganisms, as the microbes in biofilms are more dangerous than the planktonic cells. Some chemicals or coatings due to their specific properties can fulfill multiple functions; they are able to control the corrosion caused by aggressive materials (that could be the metabolites of a corrosion relevant microorganism) and, at the same time, reduce the microbial adhesion. These additives that have important application possibilities in the chemical industry, marine environment, medical field, nanoelectronics, etc., can save energy, materials consumption and cost, and, at the same time, the efficiency is improved. All resolutions will be brought into prominence when the same chemicals (either in dissolved form or in coatings/nanolayers) can effectively control the different appearance of corrosion and, additionally, the microbial adhesion and microbiologically influenced corrosion. [ABSTRACT FROM AUTHOR]

Published

2024

9. The synthesis of polyindole-based binder-free coating and its effect on the corrosion behavior of mild steel in 3.5% NaCl solution.

Author

Suna Karatekin, Rukan, Kılıç, Özlem, Kaplan, Sedef, and Kahya Düdükcü, Meltem

Subjects

MILD steel, EPOXY coatings, FOURIER transform infrared spectroscopy, X-ray powder diffraction, POLARIZATION spectroscopy, MOLECULAR weights

Abstract

The influence of three polyindole samples on the corrosion rate of mild steel in the absence and presence of different amounts of acetonitrile was investigated in 1-M HClO4. All samples were characterized by Scanning Electron Microscopy, Energy-Dispersive X-ray Spectroscopy, Fourier transform infrared spectroscopy, UV–vis spectroscopy, X-ray Powder Diffraction, and contact angle measurements. Through measurements, it was determined that the polymers differ from each other on the basis of morphology, conjugation, molecular mass, and crystallinity. Also, it was found that all samples include FeCl3 used as an oxidant. The corrosion tests were performed using Electrochemical impedance spectroscopy and polarization curve technique. Among the samples, PIn1 has the highest anti-corrosive property as it includes the highest amount of Fe and the highest density of hydrophobic group, such as ClO4−. According to the characterization measurement recorded after corrosion tests, corrosion species (based on Fe compound) are formed and they increased the passive film protection. From the electrochemical measurement results, it was found that PIn1 inhibited the cathodic corrosion reaction of MS in 3.5% NaCl and showed 98% protection efficiency. Long-term stability analysis shows that Rct increases with time indicating passive film protects the mild steel. So it was found that all polyindole-based inhibitors have a synergistic inhibition effect in the solution. Also, the temperature effect was investigated in the corrosion protection ability of polyindol-based inhibitor. [ABSTRACT FROM AUTHOR]

Published

2024

10. Corrosion of CK10 Steel Pipes Used at the Entrance of Water and Gas Condensate Separation Unit from Natural Gas.

Author

Jafari, R., Mohammadzadeh, H., and Gheysvand, A.

Subjects

NATURAL gas, SEPARATION of gases, STEEL corrosion, WATER use, INDUSTRIAL gases, PIPE, STEEL pipe

Abstract

In the present work, the causes of failure have been investigated for a steel pipe that was abandoned after some time of service in a separation unit of gas facilities. These pipes are exposed to the natural gas and industrial atmosphere. Therefore, the damage to the steel pipes of the separation unit was investigated through several comprehensive analytical investigations, including an optical microscope (OM), quantometer, XRD, FE-SEM, EDS, and microhardness. Moreover, the corrosion resistance was studied through polarization and EIS analysis to elucidate the most plausible reactions and corrosion mechanisms. Visual observations indicated a significant reduction in the thickness of the pipes, and the metallographic studies showed exacerbated voids and porosities in the inner surface. Further studies proved severe uniform corrosion associated with pitting in the pipe's inner side and the removal of corrosion products by the gas flow, which confirmed the EIS results. According to the EDS and XRD results, the composition of the corrosion products was found to be Fe2O3, Fe3O4, and FeCO3. However, the porous and loose corrosion products presented an unprotective layer over the material. Based on the features of the material and the oil site conditions, some recommendations were proposed to reduce the corrosion rate, and prolong the service life of the pipes in the separation unit. [ABSTRACT FROM AUTHOR]

Published

2024

11. Sustainable New Technology for the Improvement of Metallic Materials for Future Energy Applications.

Author

Jovičević-Klug, Patricia and Rohwerder, Michael

Subjects

TECHNOLOGICAL innovations, ENERGY futures, RENEWABLE energy sources, ENERGY industries, CORROSION resistance

Abstract

The need for a more sustainable and accessible source of energy is increasing as human society advances. The use of different metallic materials and their challenges in current and future energy sectors are the primary focus of the first part of this review. Cryogenic treatment (CT), one of the possible solutions for an environmentally friendly, sustainable, and cost-effective technology for tailoring the properties of these materials, is the focus of second part of the review. CT was found to have great potential for the improvement of the properties of metallic materials and the extension of their service life. The focus of the review is on selected surface properties and corrosion resistance, which are under-researched and have great potential for future research and application of CT in the energy sector. Most research reports that CT improves corrosion resistance by up to 90%. This is based on the unique oxide formation that can provide corrosion protection and extend the life of metallic materials by up to three times. However, more research should be conducted on the surface resistance and corrosion resistance of metallic materials in future studies to provide standards for the application of CT in the energy sector. [ABSTRACT FROM AUTHOR]

Published

2023

12. Durable Polyacrylic/Siloxane-Silica Coating for the Protection of Cast AlSi7Mg0.3 Alloy against Corrosion in Chloride Solution.

Author

Rodič, Peter, Kapun, Barbara, and Milošev, Ingrid

Subjects

SILOXANES, POLYACRYLIC acid, CORROSION in alloys, PROTECTIVE coatings, ALUMINUM alloys, INFRARED spectroscopy, SURFACE coatings

Abstract

This study presented a novel corrosion protective coating based on polyacrylic/siloxane-silica (PEHA-SS) deposited on lightweight cast aluminium alloy AlSi7Mg0.3. The synthesis of PEHA-SS comprises organic monomer 2-ethylhexyl acrylate and organically modified silane 3-(trimethoxysilyl)propyl methacrylate as well as an inorganic silane, tetraethyl orthosilicate. The steps during the synthesis process were monitored using real-time infrared spectroscopy. The coating deposited onto the AlSi7Mg0.3 surface was characterised using various techniques, including infrared spectroscopy, 3D contact profilometry, and scanning electron microscopy coupled with energy-dispersive X-ray spectroscopy. The corrosion resistance of the coated alloy in sodium chloride solutions was evaluated using electrochemical impedance spectroscopy. The accelerated testing of the uncoated and coated sample was performed using the Machu test. This novel, nine micrometres thick PEHA-SS coating achieved durable corrosion (barrier) protection for the AlSi7Mg0.3 alloy in 0.1 M NaCl during the first four months of immersion or under accelerated corrosion conditions in a Machu chamber containing NaCl, acetic acid, and hydrogen peroxide at 37 °C. [ABSTRACT FROM AUTHOR]

Published

2023

13. Recent Trends and Progress in Corrosion Inhibitors and Electrochemical Evaluation.

Author

Bijapur, Kiran, Molahalli, Vandana, Shetty, Apoorva, Toghan, Arafat, De Padova, Paola, and Hegde, Gurumurthy

Subjects

ELECTROLYTIC corrosion, PLANT extracts, NATURAL resources, RESEARCH personnel, CHEMICAL species

Abstract

Science and engineering research studies are currently concentrating on synthesizing, designing, producing, and consuming ecologically benign chemical species to replace harmful chemicals. This is due to the increasing demands of conservation knowledge and strict ecological regulations. Numerous environmentally friendly substitutes produced from natural resources, including biopolymers, plant extracts, chemical pharmaceuticals (drugs), and so on, are now frequently used as inhibitors to replace dangerous corrosion inhibitors. Many compounds have been extensively used. A range of methods, including physisorption, chemisorption, barrier protection, thin-film growth, and electrochemical procedures, will be used to provide corrosion resistance. The various kinds of corrosion inhibitors (CIs), the mechanisms underlying inhibition, and the evaluation procedures have all been covered in-depth. This review provides an overview of the relevant literature in which researchers and scientists used different types of CIs, the effect of CIs on metals, and information about designs and mechanisms used to minimize corrosion in a variety of equipment composed of alloys or metals, along with electrochemical evaluation studies. This review will provide scholars with fresh insights to advance the discipline. [ABSTRACT FROM AUTHOR]

Published

2023

14. Development of smart self-healing coating for the corrosion protection of magnesium alloys: a brief review.

Author

Mohamed, N. S., Alias, J., Johari, N. A., Alang, N. A., and Ahmad, A. H.

Subjects

SELF-healing materials, MAGNESIUM alloy corrosion, MAGNESIUM alloys, LIGHT metal alloys, SURFACE coatings

Abstract

The combination of excellent physical qualities and biocompatibility has made magnesium (Mg) alloys a viable light alloy, particularly for automotive, aerospace, and pharmaceutical applications. However, in most environments, Mg alloys are easily corroded, thus preventing their extensive use. Surface protection by coating is an affordable method for preventing corrosive media from contacting Mg substrate. The development of smart self-healing coatings has attracted attention for surface coating of Mg alloys, as it can impede corrosion reactions, repair mechanical damage, and enable the substrate to function normally again. This article briefly reviews the promising approach of smart self-healing coatings, state-of-the-art coatings, and various healing agent encapsulations. Polymerizable healing agents or corrosion inhibitors are encapsulated in containers and embedded in the coating matrices to facilitate autonomous healing mechanisms. This brief explanation and review are expected to give an insight and more opportunities to explore newly designed smart self-healing coatings. [ABSTRACT FROM AUTHOR]

Published

2023

15. Fabrication of Smart pH-Responsive Nanocontainers for Corrosion Protection of Mild Steel.

Author

Fathabadi, Hadi Ebrahim and Ghorbani, Mohammad

Subjects

MILD steel, METHENAMINE, SURFACE resistance, ZETA potential, ELECTROSTATIC interaction, VISIBLE spectra

Abstract

Intelligent pH-sensitive nanocontainers were successfully constructed employing the Layer by Layer (LbL) approach. FESEM, HRTEM, EDS, elemental mapping, zeta-potential, FTIR, TGA, SIMS, UV–Vis, and Tafel polarization examinations were subsequently performed on the nanocontainers. Following the LbL procedure, imaging evaluation using FESEM and HRTEM revealed a 42 percent increase in the diameter of SiO2 nanoparticles with a halo view. The effective layer implantation was confirmed by EDS, elemental mapping, and zeta potential recording. Electrostatic interactions between Hexamine (HMTA) compounds and distinct layers were discovered using FTIR. Nanocontainers were found to contain 2.86 percent HMTA after a thermal study and a SIMS analysis. An analysis using ultraviolet/visible light showed that the nanocontainers discharged HMTA at various rates into mixtures with different pH. Due to the self-release of HMTA from nanocontainers in extreme acidic and basic mixtures, Tafel polarization suggested surface corrosion resistance. [ABSTRACT FROM AUTHOR]

Published

2023

16. Green corrosion inhibitors of steel based on peptides and their constituents: a combination of experimental and computational approach.

Author

Simović, Andjela, Stevanović, Sanja, Milovanović, Branislav, Etinski, Mihajlo, and Bajat, Jelena B.

Subjects

CORROSION & anti-corrosives, STEEL corrosion, ATOMIC force microscopy, GLUTAMIC acid, AMINO acids, PEPTIDES, MILD steel, TRIPEPTIDES, EPOXY coatings

Abstract

In this work, six groups of non-toxic compounds were tested as inhibitors for mild steel in 1 M HCl solution: glycine (Gly), glutamic acid (Glu), cysteine (Cys), a mixture of three amino acids glycine, glutamic acid, and cysteine (Gly + Glu + Cys); a mixture of dipeptide composed of glycine and glutamic acid with amino acid cysteine (Gly-Glu + Cys); and a tripeptide composed of glycine, cysteine and glutamic acid which is called glutathione (Glt). The inhibition performances of inhibitor systems for steel corrosion were investigated by electrochemical tests (polarization measurements and electrochemical impedance spectroscopy) and surface analyses (atomic force microscopy-AFM, optical microscope, and photoelectron spectroscopy-XPS). Experimental results showed that all six groups of inhibitors affect the reduction of steel corrosion rate, with Glt having the highest efficiency during 4-h immersion (97.3%). Atomic force microscopy and optical microscope showed that the inhibitors are able to protect the metal surface and reduce the extent of corrosion. The existence of the Glt inhibitory film on the steel surface was confirmed by the XPS method. DFT calculations provided useful insights into adsorption of the corrosion inhibitors. [ABSTRACT FROM AUTHOR]

Published

2023

17. SYNTHESIS AND CHARACTERIZATION OF BENZOXAZINE: URETHANE COPOLYMER FROM VANILLIN WITH ADAMANTANE SIDE CHAIN AND ITS ANTICORROSIVE COATING ON MILD STEEL.

Author

Jayanthi, K. and Sivaraju, M.

Subjects

MILD steel, URETHANE, BENZOXAZINES, ADAMANTANE, VANILLIN, CORROSION resistance

Abstract

Corrosion is a significant issue with metallic materials, notably in steel due to its extensive use in a variety of industries. Benzoxazine polymers have been used to produce anti-corrosive compounds that have a remarkable ability to limit corrosion. In the same ink line, we have explored a new approach with a very hydrophobic benzoxazine monomer which is co-polymerized with urethane, and its characterization was studied with IR, UV, and NMR techniques. The corrosion resistance of the same is investigated using Tafel polarization and EIS experiment methodologies. The DFT and MEP studies explain the reactivity towards the anti-corrosive properties of the monomer. [ABSTRACT FROM AUTHOR]

Published

2023

18. Influence of Different Aqueous Media on the Corrosion Behavior of B 4 C-Modified Lightweight Al-Mg-Si Matrix Composites.

Author

Kumar, Neeraj, Sharma, Ashutosh, and Manoj, Manoranjan Kumar

Subjects

POWDER metallurgy, ELECTROLYTIC corrosion, CORROSION potential, BORON carbides, METALLIC composites, CORROSION resistance

Abstract

In this study, we have investigated the electrochemical corrosion behavior of boron carbide (B4C) ceramic-reinforced Al-Mg-Si matrix composites in various aqueous environments (NaOH, NaCl, HCl, and H2SO4). The samples were produced by the powder metallurgy (P/M) route and the corrosion investigations were conducted by potentiodynamic polarization (PDP) and electrochemical impedance spectroscopy (EIS) methods. The morphology of the as-prepared and corroded samples was examined by scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS) studies. The investigations revealed that the corrosion resistance of Al-Mg-Si composites is highest in NaCl medium due to a less negative corrosion potential, higher charge transfer (Rct) resistance, and lower double-layer capacitance (Cdl) as compared to other media. The SEM morphology suggests that B4C ceramics enhance corrosion resistance by forming a protective barrier layer of OH- and Cl- deposits in the composite and unreinforced alloy, respectively. [ABSTRACT FROM AUTHOR]

Published

2022

19. Electrochemical behavior of laser powder bed fusion fabricated 316L stainless steel in a nitric acid solution.

Author

Soleimani, Sahar, Yeganeh, Mahdi, and Lari Baghal, Seyed Mohammad

Subjects

NITRIC acid, ACID solutions, POWDERS, LASERS, ROLLING (Metalwork), AUSTENITIC stainless steel, STAINLESS steel

Abstract

The purpose of this work is to study the microstructure and electrochemical performance of 316L stainless steel fabricated by the laser powder bed fusion (LPBF) and commercial rolling (Roll) in 0.5M nitric acid solution. The LPBF-manufactured 316L stainless steel had a higher corrosion resistance in nitric acid solution than the Roll steel. According to the electrochemical studies, the impedance modulus (|Z|10mHz) of the LPBF alloy was twice as great as its roll counterpart after 1 day of immersion in nitric acid solution and about 1 kΩ cm2. Moreover, the potentiodynamic polarization test showed that the LPBF alloy had one-fourth the ipass value as the Roll sample, suggesting that the passive layer on the surface of additive manufactured samples is more stable and enriched with Cr2O3. Additionally, the LPBF microstructure did not contain harmful phases like TiN, which can adversely affect the protection performance of the passive layer. [ABSTRACT FROM AUTHOR]

Published

2022

20. Tuning Corrosion Properties of the Bio-Inspired AZ-Series Mg Alloys Using Electrochemical Surface Treatment under Varying Experimental Regimes.

Author

Rehman, Zeeshan Ur, Kim, Jong Seop, Churchill, David G., and Koo, Bon Heun

Subjects

SURFACE preparation, MAGNESIUM alloys, ALLOYS, ELECTROLYTIC oxidation, CORROSION potential, SURFACE analysis

Abstract

Plasma electrolytic oxidation (PEO) is a preferable process applied to optimize the corrosion and wear properties of metals and their alloys, particularly magnesium (Mg) alloys used in highly demanded medical and aerospace applications. In this project, AZ series alloys (AZ31, AZ61, AZ91), which are the major commercial magnesium alloys, were coated using the PEO process under varying experimental conditions involving electrolyte with Si based ionic chemical networks together with hydroxyl and fluoride functionalities. Surface analysis was carried out using scanning electron microscopy (SEM). Data were further simulated and analyzed using imageJ software. SEM results showed that, increasing the concentration of Al as in AZ91 and AZ61, dendrites-dominated the microstructure at shorter processing times; a cratered-dendritic matrix was obtained at longer processing time. From the composition analysis, fluoride complex peaks were obtained for the higher Al-content alloy (AZ91), due to the localized intensive discharges made regular by the stable β-phases within the Mg matrix. Corrosion analysis was carried out using potentiodynamic polarization. The compact structure, higher growth rate, and stable chemical phases of MgF2 contributed to the highest hardness values ~1271.2 HV and corrosion potential ~−0.18 V for the AZ91 alloy. [ABSTRACT FROM AUTHOR]

Published

2022

21. Ce-loaded silica nanoparticles in the epoxy nanocomposite coating for anticorrosion protection of carbon steel.

Author

Nguyen, Thien Vuong, Tran, Dai Lam, Nguyen, Tuan Anh, Nguyen, Thi Thanh Huong, Dao, Phi Hung, Mac, Van Phuc, Do, Minh Thanh, Nguyen, Thi Mai, and Dang, Thi My Linh

Subjects

EPOXY coatings, SILICA nanoparticles, CARBON steel, SCANNING transmission electron microscopy, ABRASION resistance

Abstract

Purpose: This study aims to explore how the inhibitor-loaded nanocontainers can be used in the epoxy coating for protection of steel against corrosion. A self-healing anticorrosive coating can be easily fabricated by embedding the inhibitor-loaded nanocontainers into the epoxy coating matrices. For this purpose, first, cerium (a catholic corrosion inhibitor) is encapsulated into silica nanoparticles (SiO2@Ce). Thereafter, an epoxy nanocomposite coating has been prepared on steel substrate using these SiO2@Ce nanoparticles as nanofillers. Design/methodology/approach: To examine the effect of SiO2@Ce nanocontainers on mechanical properties of epoxy coating, the abrasion resistance, impact resistance and adhesion strength of coating have been evaluated. To reveal the effect of SiO2@Ce nanocontainer on corrosion behavior of epoxy-coated steel, the electrochemical impedance spectroscopy (EIS) has been conducted in NaCl solution. Findings: Transmission electron microscopy and scanning electron microscopy/Energy-dispersive X-ray spectroscopy analyses indicate that Ce3+ cations have been successfully loaded into the surface of silica nanoparticles (at the content of approximately 2 Wt.%). Mechanical tests of epoxy nanocomposite coatings indicate that the nanocomposite coatings with nanoparticles content of 2.5 Wt.% provide the highest values of abrasion resistance, impact resistance and adhesion strength. EIS results show that the presence of SiO2@Ce3+ nanocontainers increases both coating resistance and polarization resistance. Along with the improvement the coating barrier performance, Ce inhibitor plays an important role in improving the anticorrosive performance at the steel–electrolyte interface. Originality/value: The application of self-healing epoxy/SiO2@Ce nanocomposite coatings for the protection of carbon steel is very promising. [ABSTRACT FROM AUTHOR]

Published

2022

22. Preparation and Application of a New Two-Component Superhydrophobic Coating on Aluminum Alloy.

Author

Qiu, Chao, Liang, Shuai, Li, Meng, Cheng, Han, and Qin, Wenfeng

Subjects

ALUMINUM alloys, SUPERHYDROPHOBIC surfaces, CONTACT angle, SURFACE coatings, FREEZING points, CORROSION resistance

Abstract

Superhydrophobic surfaces have been widely used for their corrosion resistance, self-cleaning and anti-icing characteristics. A new two-component superhydrophobic coating was prepared on aluminum alloy, and some application properties were studied. With appropriate silica, the contact angle of the two-component superhydrophobic coating can be 164.4°, and it has good resistance to the continuous hitting of water droplets and the corrosion of acid. Even when it had been continuous impacted by acid droplets for 300 min, the contact angle of the coating was still lager than 150°. However, the coating was easily corroded by sodium hydroxide. Moreover, it can not only reduce its freezing point by more than 5 °C, but also delay the freezing of droplets on aluminum alloy by about 20 s at the temperature of −20 °C. More than that, the growth of ice or frost on it can only cause extremely minor mechanical damage to it. [ABSTRACT FROM AUTHOR]

Published

2022

23. Enhanced corrosion resistance of 17-4 PH stainless steel fabricated by laser powder bed fusion in H2SO4 solution.

Author

Shoushtari, Mohammadreza Tavakoli, Yeganeh, Mahdi, and Kotoki, Davoud Ghasemi

Subjects

MARTENSITIC stainless steel, CORROSION resistance, STAINLESS steel, STEEL alloys, DISTRIBUTION (Probability theory), ELECTRIC batteries

Abstract

The purpose of this study is to examine the microstructure and corrosion performance of martensitic stainless steel 17-4 PH produced by laser powder bed fusion (LPBF) and its corresponding rod specimen in sulfuric acid. Based on a microstructural analysis, the LPBF alloy contained melt pools with an ultrafine cellular structure and uniform distribution of elements, including Nb. The LPBF process significantly improved the corrosion resistance of the 17-4 PH stainless steel alloy in sulfuric acid. The alloy manufactured by LPBF had a charge transfer resistance of at least 7 times that of the Rod counterpart and a corrosion current density that was 4 times lower than Rod. The homogeneous distribution of elements during the solidification process improved the electrochemical performance of LPBF 17-4 PH stainless steel due to the development of gentle galvanic cells compared to Rod one. [ABSTRACT FROM AUTHOR]

Published

2022

24. Corrosion of Additively Manufactured Metallic Components: A Review.

Author

Khan, Hamaid Mahmood, Özer, Gökhan, Yilmaz, Mustafa Safa, and Koc, Ebubekir

Subjects

CORROSION in alloys, MARKET penetration, MATERIALS analysis, CHEMICAL properties, ELECTROLYTIC corrosion, DENTAL metallurgy

Abstract

The unique additive manufacturing (AM) attributes such as tool-less design, on-site fabrication, short production cycle, and complex structures fabrication can make AM market penetration deeper. The sustained improvements in AM's computational hardware and software, advanced automation, affordable equipment, and process, structural, and metallurgical understanding are likely to contribute to AMs' more comprehensive commercial adaptation. However, several scientific and technological issues like process-induced defects and microstructural heterogeneity limit its growth in replacing conventional products. AM mechanical properties are comparable to those produced conventionally, and the same is true about its corrosion behavior. However, AM process uncertainties can vary part properties, causing significant discrepancies in corrosion results. Controlling corrosion in AM alloys requires a proper understanding of the process and microstructural evolution. Optimizing processing conditions is critical for part's high productivity and minimal defects. Similarly, post-processing conditions are vital to infuse desired mechanical and chemical properties. Regardless of the processing conditions, corrosion is integral to material stability that needs scientific input to understand and develop mechanical and microstructural properties for excellent corrosion-resistant AM materials. This study aims to analyze the scientific work done in the corrosion analysis of AM materials and to suggest future work potentials. [ABSTRACT FROM AUTHOR]

Published

2022

25. Nanostructured Coatings: Review on Processing Techniques, Corrosion Behaviour and Tribological Performance.

Author

Farooq, Sheikh Aamir, Raina, Ankush, Mohan, Sanjay, Arvind Singh, Ramachandra, Jayalakshmi, Subramanian, and Irfan Ul Haq, Mir

Subjects

COATING processes, METAL coating, PROTECTIVE coatings, SURFACES (Technology), SURFACE coatings, COMPOSITE coating, CERAMIC coating

Abstract

Corrosion and tribology are surface phenomena. Modifying surfaces of materials without resorting to altering their bulk properties is an effective route to alleviate corrosion, friction and wear, encountered in engineering applications. With the advancements in the field of nanotechnology, surface protective coatings with nanomaterials can be readily developed to explore their functionality in mitigating chemical/physical damage of surfaces. Surface protection enhances performance and operating lifetimes of industrial machinery components. This review presents insights on various types of recently developed nanostructured coatings, their synthesis routes, corrosion behaviour and tribological performance. It provides the state-of-the-art information on the development of nanostructured coatings, namely, ceramic coatings, metallic coatings and nanocomposite coatings with metal and polymer matrices. Biomimetic approaches in making nanostructured coatings and challenges encountered in the development of nanostructured coatings are highlighted. [ABSTRACT FROM AUTHOR]

Published

2022

26. در محیط SLM تولیدشده به روش L بررسی افزودن متیونین بر خوردگی فولاد 316 اسیدسولفوریک

Author

محمدحسین رضوانی, مهدي یگانه, and سیدمحمد لاري بقال

Subjects

AUSTENITIC stainless steel, X-ray photoelectron spectroscopy, OPEN-circuit voltage, PHYSISORPTION, METALLIC oxides, STAINLESS steel

Abstract

In this study, the addition of organic methionine inhibitor (as an eco-friendly inhibitor) to 0.1 M sulfuric acid media on corrosion resistance of 316L austenitic stainless steel (fabricated by rolling method and three-dimensional (3D) printing method) was investigated. Open-circuit potential electrochemical test and impedance, and structural tests such as optical and electron microscopy and x-ray photoelectron spectroscopy were conducted. The results showed that the corrosion resistance in the presence of inhibitor was higher than the sample without inhibitor and the inhibitory efficiency of methionine was increased up to 64% and the resistance to surface transfer between metal oxide and electrolyte was improved up to 2.77 times. The addition of methionine reduced the surface roughness and accumulation of the surface cavities. The chemical and physical adsorption mechanism of the inhibitor (negatively charged side adsorption of the methionine molecule with positively charged anodic regions of the metal surface) occurred at all points on the surface of the sample with the inhibitor. Also, the amount of oxygen in the cavities was reduced and the distribution of sulfur was uniform. The thickness of the passivator oxide layers was calculated more than the sample without inhibition due to the addition of inhibitor. [ABSTRACT FROM AUTHOR]

Published

2022

27. Influence of sulfonic acid doping during polypyrrole electrodeposition on the corrosion protection for AA2024-T3

Author

Lin, Mao-Chia, Wei, Zhen, Wang, Ruigang, and Zhang, Xinyu

Published

2025

28. Review of Oxidant Corrosion Inhibition in Petroleum Engineering

Author

Liu, Pingli, Liu, Kexin, Xue, Xinsheng, Du, Juan, and Liu, Jinming

Published

2024

29. Investigating the controlled microstructure features and the corrosion performance of laser beam powder bed fusioned Ti6Al4V alloy

Author

Rajabi, Tohid, Ghorbani, Hamid Reza, Atapour, Masoud, Gokcekaya, Ozkan, and Nakano, Takayoshi

Published

2024

30. Characteristics and Electrochemical Behavior of AZ31 Mg Alloy Protected with Potentiostatically Deposited Polypyrrole Coatings

Author

Masumi, S., Mahdavi, S., Etminanfar, M. R., and Marashi Najafi, F.

Published

2024

31. Cationic UV-cured epoxy coating with inhibitor-loaded nanoparticles: photoinitiated cationic polymerization, mechanical properties and corrosion protection of steel

Author

Nguyen, Thien Vuong, Do Truc, Vy, Nguyen, Tuan Anh, and Tran, Dai Lam

Published

2024