Your search keyword '"Gao, Zhiming"' showing total 10 results

1. The inhibitor effect of migrating corrosion inhibitors on Q235 steel in high alkaline environment under cathodic polarization.

Author

Jia, Hang, Gao, Zhiming, Wu, Shixiong, Liu, Jia Liang, and Hu, Wenbin

Subjects

*STEEL corrosion, *X-ray photoelectron spectroscopy, *STEEL, *REINFORCED concrete, *OXIDE coating, *STRESS corrosion cracking, *CORROSION fatigue, *RAMAN spectroscopy

Abstract

Purpose: This study aims to investigate the corrosion inhibitor effect of migrating corrosion inhibitor (MCI) on Q235 steel in high alkaline environment under cathodic polarization. Design/methodology/approach: This study investigated the electrochemical characteristics of Q235 steel with and without MCI by polarization curve and electrochemical impedance spectroscopy. Besides, the surface composition of Q235 steel under different environments was analyzed by X-ray photoelectron spectroscopy. In addition, the migration characteristic of MCI and the adsorption behavior of MCI under cathodic polarization were studied using Raman spectroscopy. Findings: Diethanolamine (DEA) and N, N-dimethylethanolamine (DMEA) can inhibit the increase of Fe(II) in the oxide film of Q235 steel under cathodic polarization. The adsorption stability of DMEA film was higher under cathodic polarization potential, showing a higher corrosion inhibition ability. The corrosion inhibition mechanism of DEA and DMEA under cathodic polarization potential was proposed. Originality/value: The MCI has a broad application prospect in the repair of damaged reinforced concrete due to its unique migratory characteristics. The interaction between MCIs, rebar and concrete with different compositions has been studied, but the passivation behavior of the steel interface in the presence of both the migrating electric field and corrosion inhibitors has been neglected. And it was investigated in this paper. [ABSTRACT FROM AUTHOR]

Published

2024

2. Effect of brazing and artificial aging on the corrosion and strengthening behavior of a quad-layer Al alloy composite.

Author

Zhou, Dejing, Xia, Yanming, Gao, Zhiming, and Hu, Wenbin

Subjects

BRAZING, TRANSMISSION electron microscopy, METALLIC composites

Abstract

Purpose: This study aims to investigate the influence mechanism of brazing and aging on the strengthening and corrosion behavior of novel multilayer sheets (AA4045/AA7072/AA3003M/AA4045). Design/methodology/approach: Polarization curve tests, immersion experiments and transmission electron microscopy analysis were used to study the corrosion behavior and tensile properties of the sheets before and after brazing and aging. Findings: The strength of the sheet is weakened after brazing due to brittle eutectic phases, and recovered after aging due to enhanced precipitation strengthening in the AA7072 interlayer. The core of nonbrazed sheets cannot be protected due to the significant galvanic coupling effect between the intermetallic particles and the substrate. Brazing and aging treatments promote the redissolved of second phased and limit corrosion along the eutectic region in the clad, allowing the core to be protected. Originality/value: AA7xxx alloy was added to conventional brazed sheets to form a novel Al alloy composite sheet with AA4xxx/AA7xxx/AA3xxx structure. The strengthening and corrosion mechanism of the sheet was proposed. The added interlayer can sacrificially protect the core from corrosion and improves strength after aging treatment. [ABSTRACT FROM AUTHOR]

Published

2024

3. Effect of nano-Al2O3 particle addition on Co–P–xAl2O3 nanocomposite plating electroplated on X65 steel.

Author

Liang, Guangwei, Gao, Zhiming, Deng, Cheng-Man, and Hu, Wenbin

Subjects

*X-ray photoelectron spectroscopy, *PLATING baths, *ATOMIC force microscopy, *NANOCOMPOSITE materials, *ELECTROPLATING, *ALUMINUM composites

Abstract

Purpose: The purpose of this study is to reveal the effect of nano-Al2O3 particle addition on the nucleation/growth kinetics, microhardness, wear resistance and corrosion resistance of Co–P–xAl2O3 nanocomposite plating. Design/methodology/approach: The kinetics and properties of Co–P–xAl2O3 nanocomposite plating prepared by electroplating were investigated by electrochemical measurements, scanning electron microscopy, X-ray diffraction, X-ray photoelectron spectroscopy, Vickers microhardness measurement, SRV5 friction and wear tester and atomic force microscopy. Findings: A 12 g/L nano-Al2O3 addition in the plating solution can transform the nucleation/growth kinetics of the plating from the 3D progressive model to the 3D instantaneous model. The microhardness of the plating increased with the increase of nano-Al2O3 content in plating. The wear resistance of the plating did not adhere strictly to Archard's law. An even and denser corrosion product film was generated due to the finer grains, with a high corrosion resistance. Originality/value: The effect of different nano-Al2O3 addition on the nucleation/growth kinetics and properties of Co–P–xAl2O3 nanocomposite plating was investigated, and an anticorrosion mechanism of Co–P–xAl2O3 nanocomposite plating was proposed. [ABSTRACT FROM AUTHOR]

Published

2024

4. Electrochemical impedance characteristics and degradation behaviors of carbon fiber reinforced composite attacked by HF solution.

Author

Xu, Huiyi, Gao, Zhiming, Yang, Yang, and Hu, Wenbin

Subjects

*FIBROUS composites, *HYDROFLUORIC acid, *NUCLEAR pressure vessels, *SURFACE analysis, *CARBON composites, *CONTACT angle, *CARBON fibers

Abstract

Purpose: The purpose of this study is to ensure the safe use of carbon fiber composite pressure vessels in the nuclear industry environment. Design/methodology/approach: This study investigated the degradation behaviors of carbon fiber reinforced composite (CFRP) using the specific corrosive media HF solution, with a focus on the damage to the surface epoxy layer. The degradation behaviors of CFRP in HF solution were examined by electrochemical methods and surface characterization, using HCl, NaCl and NaF solution for comparison. Findings: The results showed that the specimen in HF solution will have a value of |Z|0.01 Hz one order of magnitude lower, a substantially lower contact angle, more breakage of the surface epoxy and the stronger O─H peak and weaker C─O─C peak in the Fourier transform infrared spectrum, indicating severe hydrolytic damage to the surface epoxy. Originality/value: The work focuses on the degradation damage to CFRP surface epoxy by specific corrosive media HF. [ABSTRACT FROM AUTHOR]

Published

2023

5. Corrosion behavior of a five-layer Al alloy composite plate in NaCl solution.

Author

Zhou, Dejing, Wang, Mingyang, Ji, Yuanyuan, Liu, Zhe, Gao, Zhiming, Hu, Wenbin, and Guo, Yuhua

Subjects

COMPOSITE plates, ALLOY plating, PLATING baths, ELECTROLYTIC corrosion, SURFACE resistance, IMPEDANCE spectroscopy

Abstract

Purpose: This paper aims to investigate the electrochemical corrosion behavior of a five-layer Al alloy composites (4343/4047/3003/4047/4343) with a thickness of 0.2 mm in NaCl solution. Design/methodology/approach: Electrochemical impedance spectroscopy, polarization curve and morphology analyses were used to study the corrosion behavior of the Al alloy composites from cross-sectional and plane directions. Findings: The corrosion resistance of the surface from the plane direction was higher than that from the cross sections. Si-enrich particles were observed in the outer 4047/4343 layer, and AlFeCuMnBi phases were identified in the core 3003 layer. The galvanic coupling between the Si-enrich particle and the Al matrix accelerated the dissolution Al matrix. Originality/value: This work lays the experimental foundation for corrosion mechanism of the Al alloy composite plate. [ABSTRACT FROM AUTHOR]

Published

2023

6. Effect of chloride concentration on the properties of passive film formed on Q235 steel in simulated concrete pore solutions.

Author

Liu, Lupeng, Li, Senlin, Gao, Zhiming, Jia, Hang, and Hu, Wenbin

Subjects

CHARGE transfer, X-ray photoelectron spectroscopy, ELECTROCHEMICAL analysis, CHLORIDES, STEEL, DIFFUSION control, CONCRETE

Abstract

Purpose: This paper aims to study the effect of chloride concentration on the properties of passive film formed on Q235 steel in simulated concrete pore solutions. Design/methodology/approach: Mott–Schottky analysis and electrochemical impedance spectroscopy were used to study the passive film of Q235 steel in simulated concrete pore solution. X-ray photoelectron spectroscopy was used to analyze the composition of passive film on Q235 steel. Findings: When the chloride concentration is below the chloride threshold value, open circuit potential (OCP) and Rct gradually increases and donor concentration (ND) remains unchanged with the increasing immersion time. When the chloride concentration exceeds chloride threshold value, OCP and Rct decreases after a temporary increase and ND increases. The linear region of the Mott–Schottky curve lost its linearity. The electrochemical process control step is changed from charge transfer control to oxygen diffusion control. As the chloride concentration increases, the FeO content in the passive film increases and the Fe2O3 content decreases. Chloride can destroy the outer layer of passive film and introduce impurities. Originality/value: The effects of chloride and immersion time on the change process of passive films on Q235 steel in simulated concrete pore solution were studied using electrochemical methods. The mechanism of chloride destroying passive film was analyzed. [ABSTRACT FROM AUTHOR]

Published

2023

7. Effect of Hg2+ on the corrosion behavior of Al-2%Zn coatings on AA5083 in 3.5 Wt.% NaCl solution.

Author

Xia, Yanming, Zhou, Dejing, Gao, Zhiming, and Hu, Wenbin

Subjects

MERCURY, SURFACE coatings, SALT, OXIDE coating, SCANNING electron microscopy, IMPEDANCE spectroscopy

Abstract

Purpose: This paper aims to study the effect of Hg2+ on the corrosion behavior of Al–2%Zn coatings on AA5083 in 3.5 Wt.% NaCl solution. Design/methodology/approach: Potentiodynamic polarization and electrochemical impedance spectroscopy are used to investigate the effect of Hg2+ on the corrosion behavior. The surface and cross-sectional morphology are characterized by scanning electron microscopy and energy dispersive spectroscopy (EDS) to further reveal the corrosion mechanism of Hg2+. Findings: The results show that the corrosion behavior of the coating changes significantly as the concentration of Hg2+ increases from 5 to 30 μg/L. The corrosion production film can inhibit the corrosion process when Hg2+ concentration is in the range of 0.5–5 μg/L, while Hg2+ can promote the corrosion process significantly when its concentration reaches to 30 μg/L. The generation rate of dense oxide film on the coating surface is faster than dissolution rate when the concentration of Hg2+ is in the range of 0–5 μg/L, which makes the coating "self-healing" and thus slightly slows down the corrosion rate. The EDS analysis shows that excessive Hg2+ are preferentially deposited at locations with inhomogeneous electrochemical properties, which in turn accelerates corrosion. Originality/value: The corrosion resistance of Al-based coatings is significantly affected by Hg2+ in seawater. Thus, it is important to explain the corrosion mechanism of Al–2%Zn coatings under the combined effect of Hg2+ and Cl− in 3.5 Wt.% NaCl solution. [ABSTRACT FROM AUTHOR]

Published

2022

8. Effect of temperature on process and kinetic parameters of the hydrogen evolution reaction of X80 under CP.

Author

Wu, Shixiong, Gao, Zhiming, Xia, Da-Hai, Wu, Meijun, Liu, Yingjie, and Hu, Wenbin

Subjects

*HYDROGEN evolution reactions, *TEMPERATURE effect, *CATHODIC protection, *HYDROGEN content of metals, *DESIGN protection, *SYSTEMS design

Abstract

Purpose: This paper aims to study the effect of temperature on the process and kinetic parameters of the hydrogen evolution reaction of X80 under cathodic protection (CP) in 3.5% NaCl solution. Design/methodology/approach: Potentiodynamic polarization combined with the hydrogen permeation test is used to analyze the hydrogen evolution reaction (HER) process and the rate-determining step for which is diagnosed through the electrochemical impedance spectrum method. Then, the influence of temperature on kinetic parameters of HER can be known from the results obtained by using the Iver-Pickering-Zamenzadeh model for data analysis. Findings: The results show that the HER proceeds through Volmer–Tafel route with the Volmer reaction acting as the rate-controlling step; Increasing temperature gives a higher activity of the HER on X80, it also accelerates the hydrogen desorption and diffusion of hydrogen into the metal. Originality/value: There exist few studies on the topic of how temperature affects the HER process. It is imperative to conduct a relevant study to give some instruction in cathodic protection system design and this paper fulfills this need. [ABSTRACT FROM AUTHOR]

Published

2021

9. Corrosion behavior of WB36CN1 steel at different flow rates.

Author

Song, Jian, Gao, Zhiming, Liu, Chenxi, and Hu, Wenbin

Subjects

*STEEL corrosion, *STEEL pipe, *STEEL, *SHEARING force, *APPROACH behavior, *RATES

Abstract

Purpose: This paper aims to study the effect of flow rate (0.42∼2.09 m/s) on the corrosion behavior of WB36CN1 steel pipe in the simulated secondary circuit water environment (170°C, 6 mg/L ethanolamine + 100 µg/L NaCl), for which an autoclave was used to simulate the secondary circuit environment for carrying out related experiments. Design/methodology/approach: The corrosion behaviors were studied by electrochemical methods, morphological observations and elemental analysis. Findings: As flow rate increases, the amplitude of the current noise fluctuates increased, noise resistance Rn and spectral noise resistance Rsn decreased, the shear stress on the surface of WB36CN1 steel increases, the oxygen content on the surface decreases, the roughness becomes smaller. Meanwhile, the energy of energy distribution plot is concentrated at high frequencies under the three flow conditions, the slopes of current power spectral density curve approach 0 db/decade. This means that the oxide on the surface becomes less and corrosion rate increases with increasing flow rate. The corrosion type of WB36CN1 steel was uniform corrosion; the degree of uniform corrosion is higher at high flow rate. Originality/value: The effect of flow rate on the corrosion behavior of WB36CN1 steel pipe in the secondary circuit water environment was studied by using electrochemical methods in the laboratory. The effect mechanism of flow rate for corrosion behavior was obtained. [ABSTRACT FROM AUTHOR]

Published

2020

10. Galvanic corrosion behaviors of the low-carbon ferritic stainless steel ERW (electrical resistance welding) joint in the simulated seawater.

Author

Li, Xiaohua, Shao, Yi, Miao, Weixing, Liu, Yongchang, Gao, Zhiming, and Liu, Chenxi

Subjects

FERRITIC steel, ELECTROLYTIC corrosion, RESISTANCE welding, ARTIFICIAL seawater, ELECTRICAL steel, CORROSION potential

Abstract

Purpose: The purpose of this paper is to focus on the galvanic corrosion behaviors of the low-carbon ferritic stainless steel electrical resistance welding (ERW) joint in the simulated seawater. Design/methodology/approach: The electrochemical methods such as electrochemical noise, galvanic current and TOEFL polarization curve tests were used to study the galvanic corrosion behaviors of ERW joints of low-carbon ferritic stainless steel in simulated seawater. On this basis, a reliable accelerated corrosion method was developed. Findings: The corrosion type of the base metal and joint is the typical local corrosion. The order of corrosion resistance from strong to weak is: weld zone > base metal > low-temperature heat-affected zone (HAZ) > high-temperature HAZ. The results of constant current-constant potential accelerated corrosion test show that after constant current-constant potential accelerated corrosion, the joints present a typical groove corrosion pattern. The groove initiating area is located in the HAZ, and the corrosion degree in the weld zone is relatively light, which is consistent with the electrochemical test results. Originality/value: This paper has clarified the galvanic corrosion behaviors of low-carbon ferritic stainless steel ERW joints. Moreover, a reliable accelerated corrosion method for the low-carbon ferritic stainless steel ERW joint has been developed. [ABSTRACT FROM AUTHOR]

Published

2020