Your search keyword '"Cuiwei Du"' showing total 7 results

1. Preparation of Superhydrophobic Film on Ti Substrate and Its Anticorrosion Property

Author

Ming Chen, Dawei Zhang, Thee Chowwanonthapunya, Gaohong Yu, Cuiwei Du, Wenchuan Tang, Min Zhu, and Luyao Huang

Subjects

Materials science, Scanning electron microscope, microstructure, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, lcsh:Technology, Article, Corrosion, Contact angle, superhydrophobic film, titanium, surface, General Materials Science, lcsh:Microscopy, lcsh:QC120-168.85, lcsh:QH201-278.5, Anodizing, lcsh:T, Metallurgy, 021001 nanoscience & nanotechnology, Microstructure, Surface energy, 0104 chemical sciences, Chemical engineering, lcsh:TA1-2040, lcsh:Descriptive and experimental mechanics, Wetting, lcsh:Electrical engineering. Electronics. Nuclear engineering, 0210 nano-technology, lcsh:Engineering (General). Civil engineering (General), Layer (electronics), lcsh:TK1-9971

Abstract

Superhydrophobic films were fabricated on a titanium substrate with or without anodizing by using a self-assembling method. Firstly, the pretreatments of mechanical polishing/anodizing or mechanical polishing only were conducted, respectively. Subsequently, the preparation of polydopamine film layer, deposition of nano-silver particles, and post modification of 1H,1H,2H,2H-perfluorodecanethiol were performed on the surface of the pretreated substrate. The surface morphologies, compositions, wettability, and corrosion resistance of the films were investigated with scanning electron microscopy (SEM), energy-dispersive spectrometry (EDS), water contact angle measurements, and electrochemical tests, respectively. Meanwhile, the effect of the deposition time in the silver nitrate solution on the hydrophobicity of the specimen surface was investigated. The result showed that with the increase of deposition time, the hydrophobic property enhanced gradually. The surface deposited for 7 h exhibited an optimum hydrophobic effect, which was characterized with a large water contact angle (WCA) of 154°, and the surface was rather rough and covered by a relatively uniform layer of micro-nano silver particles. The excellent hydrophobicity was attributed to a rough stratified microstructure along with the low surface energy. The electrochemical measurements showed that the existence of the superhydrophobic film can effectively enhance the corrosion resistance of Ti samples.

Published

2017

2. Effect of Alternating Current on the Cathodic Protection and Interface Structure of X80 Steel.

Author

Huiru Wang, Cuiwei Du, Zhiyong Liu, Luntao Wang, and De Ding

Subjects

*ALTERNATING currents, *CATHODIC protection, *INTERFACE structures, *STEEL, *CYCLIC voltammetry

Abstract

This study employs potential-monitoring techniques, cyclic voltammetry tests, alternating current (AC) voltammetry methods, and surface characterization to investigate the AC corrosion of cathodically protected X80 pipeline steel. In a non-passive neutral solution at pH 7.2, a sufficiently negative potential completely protects steel at an AC current density of 100 A/m². In an alkaline solution at pH 9.6, more serious AC corrosion occurs at more negative cathodic protection (CP) potential, whereas without CP the steel suffers negligible corrosion. In addition, the interface capacitance increases with AC amplitude. Based on these results, the AC corrosion mechanisms that function under various conditions are analyzed and described. [ABSTRACT FROM AUTHOR]

Published

2017

3. Corrosion Behavior of X80 Steel with Coupled Coating Defects under Alternating Current Interference in Alkaline Environment.

Author

Zhong Li, Caiyu Li, Hongchang Qian, Jun Li, Liang Huang, and Cuiwei Du

Subjects

STEEL corrosion, ALTERNATING currents, STRESS corrosion cracking, CHARGE-transfer transitions, DIRECT currents, PHYSIOLOGY

Abstract

The corrosion behavior of X80 steel in the presence of coupled coating defects was simulated and studied under the interference of alternating current (AC) in an alkaline environment. The results from electrochemical measurements showed that the electrode potential of the coating defect with the smaller exposed area was lower than that with the larger area, which indicated that the steel with the smaller coating defect was more prone to corrosion. The result of weight loss tests also showed that the smaller coating defect had induced a higher corrosion rate. However, the corrosion rate of X80 steel at the larger coating defect decreased gradually with the increase of the larger defect area at a constant smaller defect area. The corrosion morphology images showed that the coating defects with smaller areas suffered from more severe pitting corrosion. [ABSTRACT FROM AUTHOR]

Published

2017

4. Effect of Zinc Phosphate on the Corrosion Behavior of Waterborne Acrylic Coating/Metal Interface.

Author

Hongxia Wan, Dongdong Song, Xiaogang Li, Dawei Zhang, Jin Gao, and Cuiwei Du

Subjects

METAL coating, ACRYLIC acid, PHOSPHATES, ZINC, CORROSION & anti-corrosives

Abstract

Waterborne coating has recently been paid much attention. However, it cannot be used widely due to its performance limitations. Under the specified conditions of the selected resin, selecting the function pigment is key to improving the anticorrosive properties of the coating. Zinc phosphate is an environmentally protective and efficient anticorrosion pigment. In this work, zinc phosphate was used in modifying waterborne acrylic coatings. Moreover, the disbonding resistance of the coating was studied. Results showed that adding zinc phosphate can effectively inhibit the anode process of metal corrosion and enhance the wet adhesion of the coating, and consequently prevent the horizontal diffusion of the corrosive medium into the coating/metal interface and slow down the disbonding of the coating. [ABSTRACT FROM AUTHOR]

Published

2017

5. Preparation of Superhydrophobic Film on Ti Substrate and Its Anticorrosion Property.

Author

Min Zhu, Wenchuan Tang, Luyao Huang, Dawei Zhang, Cuiwei Du, Gaohong Yu, Ming Chen, and Thee Chowwanonthapunya

Subjects

SUPERHYDROPHOBIC surfaces, THIN films, TITANIUM, SCANNING electron microscopy, ENERGY dispersive X-ray spectroscopy

Abstract

Superhydrophobic films were fabricated on a titanium substrate with or without anodizing by using a self-assembling method. Firstly, the pretreatments of mechanical polishing/anodizing or mechanical polishing only were conducted, respectively. Subsequently, the preparation of polydopamine film layer, deposition of nano-silver particles, and post modification of 1H,1H,2H,2H-perfluorodecanethiol were performed on the surface of the pretreated substrate. The surface morphologies, compositions, wettability, and corrosion resistance of the films were investigated with scanning electron microscopy (SEM), energy-dispersive spectrometry (EDS), water contact angle measurements, and electrochemical tests, respectively. Meanwhile, the effect of the deposition time in the silver nitrate solution on the hydrophobicity of the specimen surface was investigated. The result showed that with the increase of deposition time, the hydrophobic property enhanced gradually. The surface deposited for 7 h exhibited an optimum hydrophobic effect, which was characterized with a large water contact angle (WCA) of 154°, and the surface was rather rough and covered by a relatively uniform layer of micro-nano silver particles. The excellent hydrophobicity was attributed to a rough stratified microstructure along with the low surface energy. The electrochemical measurements showed that the existence of the superhydrophobic film can effectively enhance the corrosion resistance of Ti samples. [ABSTRACT FROM AUTHOR]

Published

2017

6. Failure Mechanisms of the Coating/Metal Interface in Waterborne Coatings: The Effect of Bonding.

Author

Hongxia Wan, Dongdong Song, Xiaogang Li, Dawei Zhang, Jin Gao, and Cuiwei Du

Subjects

METALLIC composites, SURFACE coatings, SCANNING electrochemical microscopy, DELAMINATION of composite materials, FOURIER transform infrared spectroscopy, SECONDARY ion mass spectrometry

Abstract

Waterborne coating is the most popular type of coating, and improving its performance is a key point of research. Cathodic delamination is one of the major modes of failure for organic coatings. It refers to the weakening or loss of adhesion between the coating and substrate. Physical and chemical characteristics of coatings have been studied via scanning electron microscopy (SEM), atomic force microscopy (AFM), contact angle measurements, Fourier transform infrared spectroscopy (FTIR), and secondary ion mass spectrometry (SIMS). Early heterogeneous swelling at the metal-coating interface in non-defective coated metals was elucidated using frequency-dependent alternating-current scanning electrochemical microscopy. Two types of coatings (styrene-acrylic coating and terpolymer coating) were compared. The effects of thickness, surface roughness, and chemical bonding on cathodic delamination were investigated. [ABSTRACT FROM AUTHOR]

Published

2017

7. A Modelling Study for Predicting Life of Downhole Tubes Considering Service Environmental Parameters and Stress.

Author

Tianliang Zhao, Zhiyong Liu, Cuiwei Du, Jianpeng Hu, and Xiaogang Li

Subjects

PETROLEUM industry equipment, ENVIRONMENTAL impact analysis, PETROLEUM pipelines, STRAINS & stresses (Mechanics), MATHEMATICAL models, PREDICTION models, PIPELINE corrosion

Abstract

A modelling effort was made to try to predict the life of downhole tubes or casings, synthetically considering the effect of service influencing factors on corrosion rate. Based on the discussed corrosion mechanism and corrosion processes of downhole tubes, a mathematic model was established. For downhole tubes, the influencing factors are environmental parameters and stress, which vary with service duration. Stress and the environmental parameters including water content, partial pressure of H2S and CO2, pH value, total pressure and temperature, were considered to be time-dependent. Based on the model, life-span of an L80 downhole tube in oilfield Halfaya, an oilfield in Iraq, was predicted. The results show that life-span of the L80 downhole tube in Halfaya is 247 months (approximately 20 years) under initial stress of 0.1 yield strength and 641 months (approximately 53 years) under no initial stress, which indicates that an initial stress of 0.1 yield strength will reduce the life-span by more than half. [ABSTRACT FROM AUTHOR]

Published

2016