Журнал Российского общества по неразрушающему контролю и технической диагностике
The journal of the Russian society for non-destructive testing and technical diagnostic
 
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23 | 11 | 2024
2019, 12 December

DOI: 10.14489/td.2019.12.pp.004-014

 

Syasko V. A., Golubev S. S., Musikhin A. S.
THE IMPROVEMENT OF THE HIGH VOLTAGE TESTING METHOD
(pp. 4-14)

Abstract. The high voltage spark testing method of protective dielectric coatings is applied in almost all manufacture areas and is governed by ISO, ASTM etc. However, all of it doesn’t pay proper attention to high voltage forming (DC or AC) and its polarity relative to electrode, influence of environment and electric field inhomogeneity. In that paper a detailed analysis of air gap breakdown forming processes was given. A dependence of electric field strength on an interelectrode gap length was given for homogeneous and highly inhomogeneous electric fields. It was shown a breakdown voltage of air gaps in highly inhomogeneous field is greatly less than in homogeneous field. Also, it is described the breakdown voltage of air gaps with positive polarity is less then with negative polarity. The possibility coatings testing with a minimum thickness up to 50 m while reducing the testing voltage without reducing the reliability of the results is shown.

Keywords: high voltage method, continuity, coating, electrical strength, polarity, breakdown voltage.

 

V. A. Syasko (Constanta LTD, St. Petersburg, Russia) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.
S. S. Golubev (Federal Agency on Technical Regulating and Metrology ROSSTANDART, Moscow, Russia) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.
A. S. Musikhin (Constanta LTD, St. Petersburg, Russia) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.

 

 

1. Unified system of protection against corrosion and aging. Varnish-and-paint coatings. Preparation of metal surfaces for painting. (2006). Ru Standard No. GOST 9.402–2004. Moscow: Standartinform. [in Russian language]
2. Yakovlev A. D. (2010). Chemistry and technology of coatings: textbook for universities. 4th Ed. (revised) St. Petersburg: Himizdat. [in Russian language]
3. Steel main pipelines. General Corrosion Protection Requirements. (1998). Ru Standard No. GOST R51164–98. Moscow: Izdatel'stvo standartov. [in Russian language]
4. Unified system of protection against corrosion and aging. Varnish-and-paint coatings. General requirements and methods of accelerated tests for resistance to climatic factors. (1991). Ru Standard No. GOST 9.401–91. Moscow: Izdatel'stvo standartov. [in Russian language]
5. Corrosion and aging protection system. Polymeric coatings. Typical technological processes. (2006). Ru Standard No. GOST 9.410–88. Moscow: Standartinform. [in Russian language]
6. Paintwork materials. Electrospark method for monitoring the continuity of dielectric coatings on conductive substrates. (2018). Ru Standard No. GOST 34395–2018. Moscow: Standartinform. [in Russian language]
7. Standard Practice for Discontinuity (Holiday). Testing of Nonconductive Protective Coating on Metallic Substrates. (2015). Standard No. ASTMD 5162-01:2015.
8. Standard Test Methods for Holiday Detection in Pipeline Coatings. (2014). Standard No. ASTM G62–14.
9. Discontinuity (Holiday) Testing of New Protective Coatings on Conductive Substrates. (2006). NACE SP0188–2006.
10. Standard Guide for Selection of Techniques for Electrical Leak Location of Leaks in Geomembranes. (2015). Standard No. ASTM D6747–15.
11. Musihin A. S., Syas'ko V. A. (2018). Electrospark continuity inspection of protective coatings. V mire NK, 21(2), pp. 42 – 45. [in Russian language]
12. Erekhinskiy B. A., Pahomov A. V. (2017). Modern technologies for the diagnosis of gas and gas condensate production facilities. Applied machinery and equipment. Voronezh: Voronezhskaya oblastnaya tipografiya. [in Russian language]
13. Bazelyan E. M., Rayzer Yu. P. (1997). Spark discharge: textbook. Moscow: Izdatel'stvo MFTI. [in Russian language]
14. Vazhov V. F., Lavrinovich V. A., Lopatkin S. A. (2006). High voltage engineering: lecture course. Tomsk: Izdatel'stvo TPU. [in Russian language]
15. Rayzer Yu. P. (1992). Gas discharge physics: manual for studying. 2nd Ed. Moscow: Nauka. [in Russian language]
16. Mik Dzh., Kregs Dzh. (1960). Electrical breakdown in gases. Moscow: Izdatel'stvo inostrannoy literatury. [in Russian language]
17. Vorob'ev G. A., Poholkov Yu. P., Korolev Yu. D. et al. (2003). Physics of dielectrics (region of strong fields): textbook. Tomsk: Izdatel'stvo TPU. [in Russian language]

 

 

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