Shengnan Hu scite author profile

Shengnan Hu

5Publications

10Citation Statements Received

52Citation Statements Given

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Affiliations

Dalian University of Technology, Zhejiang University, NARI Group (China)

Publications

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Effect of cyclic hydrostatic pressure on the sacrificial anode cathodic protection

Zhang

Shao

et al. 2011

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Purpose-The purpose of this paper is to study the effect of cyclic hydrostatic pressure on the protective performance of cathodic protection (CP) system consisting of Zn-Bi sacrificial anode and Ni-Cr-Mo-V steel. Design/methodology/approach-The anode and cathode polarization curves of the driving potential and current for CP were investigated in case of cyclic hydrostatic pressure (0-3.5 MPa) and compared with that at atmospheric pressure. The morphologies of the anode material with and without corrosion products were observed by scanning electron microscopy. Findings-The experimental results revealed that the cyclic hydrostatic pressure had significant influence on the CP system. The anode potential instantaneously responded to the cyclic hydrostatic pressure and the discharge performance decreased due to the deposition of corrosion product. Also, the CP system exhibited higher slope parameter under cyclic hydrostatic pressure, indicating that the CP system cannot provide adequate protection for Ni-Cr-Mo-V steel. Originality/value-The results presented in this paper clearly show the effect of cyclic hydrostatic pressure on the sacrificial anode CP system, and present a foundation for further research on the practical application of sacrificial anode under cyclic hydrostatic pressure environment.

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Galvanic Corrosion Performance of an Al–BN Abradable Seal Coating System in Chloride Solution

et al. 2020

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In this study, we investigated the galvanic corrosion performance of an Aluminum–Boron Nitride (Al–BN) abradable seal coating system (with a Ni5Al bond layer and a 0Cr17Ni4Cu4Nb substrate) in chloride solution by electrochemical methods. The results indicated a three-stage process occurred during the anodic dissolution of the coupled coating system, consisting of a spontaneous pitting stage I under charge transfer control with a decreasing rate, a corrosion developing stage II under mass transfer control with an increasing rate, and a final steady stage III. Precipitation of Al(OH)3 restricts the oxygen transport process to the cathode and induces localized acidification of the occluded pores of the Al–BN layer, which was the mechanism that could explain the changes of corrosion performance during the three immersion stages of Al–BN coating system. The study suggests that galvanic corrosion of the porous multi-layer Al–BN abradable coating system is mostly influenced by its corrosion product deposition.

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An Investigation of the Influence on Compacted Snow Hardness by Density, Temperature and Punch Head Velocity

Zhao

Lü

et al. 2023

Water

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The density, temperature, and punch head velocity are dominant factors to the variation of the compacted snow hardness measured by penetrometers. This effect is essential to the construction and operation of compacted snow roads. The Improved Motor-driven Snow Penetrometers (IMSP) are utilized in this research to control the penetration speed and measure the true cone hardness during snow penetration. This study employs a multi-method approach combining orthogonal experiments and the Support Vector Regression (SVR) technique to analyze the effects of these three factors on snow hardness. The results of this investigation indicate that, under identical conditions, density is positively correlated with the hardness of compacted snow, and its sensitivity and significance to the compacted snow hardness are the greatest. Temperature and penetration speed have an effect on hardness, which cannot be completely ignored. The hardness of snow close to its melting point, regardless of its density, decreases significantly at high penetration rates. This study investigates the factors that influence the hardness of compacted snow and provides substantial technical support for the design, construction, and maintenance of snow roads.

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Effect of loading speed on the stress-induced magnetic behavior of ferromagnetic steel

Bao

et al. 2017

Journal of Magnetism and Magnetic Materials

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Characterisation of the piezomagnetic response to low-cycle fatigue of ferromagnetic steels

Bao¹,

Gu²,

Hu³

2018

insight

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Shengnan Hu

Effect of cyclic hydrostatic pressure on the sacrificial anode cathodic protection

Galvanic Corrosion Performance of an Al–BN Abradable Seal Coating System in Chloride Solution

An Investigation of the Influence on Compacted Snow Hardness by Density, Temperature and Punch Head Velocity

Effect of loading speed on the stress-induced magnetic behavior of ferromagnetic steel

Characterisation of the piezomagnetic response to low-cycle fatigue of ferromagnetic steels

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