Atmospheric Corrosion State Evaluation Based on Surface Corrosion Morphology for Electrical Metal Frame Equipment in Chongqing Power Grid

Gao Lin Wu; Yao Zhong; Xiao Ren; Jian Hao; Qian Wang; Xu Peng Wang

doi:10.4028/www.scientific.net/KEM.815.89

Paper Titles

Performance Evaluation of Thermal Spraying Coatings Based on Microstructure
p.54

Emission Spectroscope Diagnostics of Direct Current Plasma Jets Used for YSZ Equiaxed Structure Coatings
p.61

Microstructures and Kinetics of Tungsten Coating Deposited by Chemical Vapor Transport
p.70

High Temperature Wear Resistance of Cobalt-Based Cladding Layer Surfacing on H13 Steel
p.81

Atmospheric Corrosion State Evaluation Based on Surface Corrosion Morphology for Electrical Metal Frame Equipment in Chongqing Power Grid
p.89

High Temperature Plastic Deformation Behavior of As-Cast 300M Steel Based on Friction Correction
p.99

Mechanism of Cementite Spheroidization from Different Initial Microstructures in Fe-0.65C-2.33Mn Alloy
p.107

Research on Welding Process of Low Alloy High Strength Steel 20MnTiB
p.114

The New Heat Source Model of AZ31B Magnesium Alloy Laser-TIG Hybrid Welding
p.120

HomeKey Engineering MaterialsKey Engineering Materials Vol. 815Atmospheric Corrosion State Evaluation Based on...

Atmospheric Corrosion State Evaluation Based on Surface Corrosion Morphology for Electrical Metal Frame Equipment in Chongqing Power Grid

Abstract:

This paper studies the atmospheric corrosion characteristics of grid metal frame equipment in Chongqing. Through the standard field test method of atmospheric corrosion -"exposure" method, this study carried out the substation site hanging test of the Q₂₃₅steel of the power transmission and transformation engineering structural material in the atmospheric environment, and mastered the corrosion data of Q₂₃₅steel in different corrosion stages. It was found that the morphology, quantity and characteristics of corrosion products on the metal surface varied greatly with the progress of corrosion. According to the metal corrosion morphology of different corrosion time, combined with image processing technology and wavelet transform algorithm, the parameters such as gray mean M, corrosion standard deviation σ_m, corrosion energy E, and energy percentage of wavelet image coefficient were selected as corrosion characteristic variable. At the same time, the BP neural network algorithm was used to qualitatively evaluate the corrosion state of the electrical equipment metal. By testing the on-site samples of the two substations, the corrosion state values of the samples were 0.946 and 0.8071, respectively, which is consistent with the actual corrosion degree, and the system had a good evaluation result.

You might also be interested in these eBooks

Advanced Materials, Processing and Testing Technology

View Preview

Info:

Periodical:

Key Engineering Materials (Volume 815)

Pages:

89-95

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.815.89

Citation:

Cite this paper

Online since:

August 2019

Authors:

Gao Lin Wu, Yao Zhong*, Xiao Ren, Jian Hao, Qian Wang, Xu Peng Wang

Keywords:

Atmospheric Corrosion, Metallic Material, Power Grid

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] F.F. Feliciano and F.R. Leta, F.B. Mainier, Texture Digital analysis for corrosion monitoring, J. Sci. Corrosion Science. 2(2015) 138-147.

DOI: 10.1016/j.corsci.2015.01.017

Google Scholar

[2] D.Itzhak, I. Dinstein and T. Zilberberg. Pitting corrosion evaluation by computer image processing, J. Sci. Corrosion Science, 21(1981) 17-22.

DOI: 10.1016/0010-938x(81)90059-7

Google Scholar

[3] M.R. Gamarra Acosta, J.C. Vélez Díaz and N. Schettini Castro, An innovative image-processing model for rust detection using Perlin Noise to simulate oxide textures, J. Sci. Corrosion Science. 88(2014)141-151.

DOI: 10.1016/j.corsci.2014.07.027

Google Scholar

[4] Y. Xu, H. Li, S. Li, X. Guan, 3-D modelling and statistical properties of surface pits of corroded wire based on image processing technique, J. Sci. Corrosion Science. 111(2016)275-287.

DOI: 10.1016/j.corsci.2016.05.015

Google Scholar

[5] Feliciano, Flávio Felix, F. R. Leta and F. B. Mainier. Texture digital analysis for corrosion monitoring. J. Sci. Corrosion Science. 93(2015)138-147.

DOI: 10.1016/j.corsci.2015.01.017

Google Scholar

[6] Liu Chenglong, MATLAB Image Processing. Tsinghua University Press, Bei Jing, 2017, pp.213-216.

Google Scholar