CORROSION-AND WEAR-RESISTANCE INCREASE OF TRANSPORT AND CHEMICAL ENGINEERING PRODUCTS
Abstract and keywords
Abstract (English):
There are presented mechanisms of transport and chemical engineering corrosion. Basic problems of a trunk gas and oil pipeline complex are presented. A general theoretical dependence for the definition of surface corrosion-resistance is shown. Methods for corrosion and corrosion wear decrease are considered.

Keywords:
corrosion-resistance, corrosion wear, surface layer, protective cover
References

1. GOST R 9.905-2007 (ISO 7384:2001), ISO 11845:1995) Corrosion-and Wear-Resistance Uniform System (CWRUS). General Requirements. – M.: Standardinform, 2007. – pp. 16.

2. Kovalyova, I.A., Khodosovskaya, N.A. Investigation of seamless hot-rolled pipe sample-witnesses tested in field oil-wells of RUP “PC “Belarusneft” for their corrosion-resistance / Castings and Metallurgy. – 2015. – No.4(81). – pp. 98-107.

3. Bunchuk, V.A. Transport and Oil, Oil Products and Gas Storage. – M.: “Nedra” Publishers, 1997. – pp. 366.

4. Kitonov, G.A., Baranov, A.N. Corrosion processes in Oil Refining Industry // Actual Problems of the Arts and Sciences. – 2016. – No.4-5. – pp.19-21.

5. Kemalov, A.F., Kemalov, R.A. Petroleum and bitumen transportation // Scientific Electronic Archive of the Academy of Natural Science. 15.02.2016. URL: http://www.econf.rae.ru/pdf/2016/02/5221.pdf (address date: 17.05.2020).

6. Timofeeva, N.Yu., Afanasieva, G.A., Timofeeva, G.Yu. Protective cover formation for ecological properties improvement in materials of food equipment and package // Problems of Regional Economy. – 2014. – No.6. – pp. 159-162.

7. Akhiyarov, R.Zh. Sampling repair of underground metal pipelines at local insulated coating damages: Thesis for Can. Sc. Tech. Degree: 25.00.19. – Ufa, 2001. – pp. 175.

8. Rezvykh, V.A. Safety support of operation term-served gas-condensate pipeline: by example of Orenburg oil-gas condensate field: Thesis for Can. Sc. Tech. Degree: 05.26.03, 25.00.19. – Ufa, 2008. – pp. 151.

9. Kushnarenko, V.M. Methods for estimate of corrosion state and repair technology of equipment of sulfurated hydrogen fields: Thesis for Dr. Sc. Tech. degree: 05.17.14. – Moscow, 1992. – pp. 407.

10. Fedonin, O.N. Machinery corrosion-resistance support during machining // Metal Working. – 2004. – No.3. – pp. 22-25.

11. Fedonin, O.N. Obespechenie korrozionnoy stoykosti detaley mashin pri ispol'zovanii nemetallicheskih pokrytiy // Spravochnik. Inzhenernyy zhurnal. – 2004. – №9. – S. 8 –14.

12. Fedonin, O.N. Corrosion-resistance support in engineering products // Science Intensive Technologies in Mechanical Engineering. – 2018. – No.10. – pp. 33-38.

13. Suslov, A.G., Shalygin, M.G. Complex technological increase of wear-resistance and static strength of 40H13 steel parts // Science Intensive Technologies in Mechanical Engi-neering. – 2018. – No.1. – pp. 19-21.

14. Shalygin, M.G. Friction Surface Subroughness Wear in Hydrogen Environment: monograph. – M.: Innovation Mechanical Engineering, 2018. – pp. 92.

15. Suslov, A.G. Quality of Machinery Surface Layer. – M.: Mechanical Engineering, 2000. – pp. 320.

16. Fedonin, O.N. Machinery corrosion-resistance support when using non-metal coatings // Reference Book. Engineering Journal. 2004. – No.9. – pp. 8-14.

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