Effect of Ageing Process on Properties of Tube Steel under Conditions of Tyumen Region

I.L. Polyanskaya; L.V. Belova

doi:10.4028/www.scientific.net/KEM.736.40

Paper Titles

Qualitative Characteristics of МоS₂Solid-Lubricant Coating Formed by Vibro-Wave Impact of Free-Moving Indenters
p.18

Quality of Metal Deposited Flux Cored Wire with the System Fe-C-Si-Mn-Cr-Mo-Ni-V-Co
p.23

Radiation-Modification Impact on the Filled Polytetrafluoroethylene Structure and Mechanical Strength
p.29

Studying Temperature Effects on Internal Microstresses in Indexable Inserts Made of (Ti,W)C-Co Group Hard Alloys
p.35

Effect of Ageing Process on Properties of Tube Steel under Conditions of Tyumen Region
p.40

Tungsten Surface Erosion by Hydrogen Plasma Irradiation
p.46

Determination of Parameters of Endurance Limit Distribution Law of Material by the Methods of Nonparametric Statistics and Kinetic Theory of High-Cycle Fatigue
p.52

Thermal Properties and Phase Composition of Full-Scale Corium of Fast Energy Reactor
p.58

Influence of the Cobalt Additive on the Flux Cored Wire of System Fe-C-Si-Mn-Cr-Ni-Mo-V
p.63

HomeKey Engineering MaterialsKey Engineering Materials Vol. 736Effect of Ageing Process on Properties of Tube...

Effect of Ageing Process on Properties of Tube Steel under Conditions of Tyumen Region

Abstract:

The paper presents the results of study on artificial strain ageing of tube steel. Temperature fluctuations accelerate ageing processes in steel resulting in changes of its microstructure. Effect of strain ageing on mechanical properties of steel has been assessed during impact strength tests.

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Periodical:

Key Engineering Materials (Volume 736)

Pages:

40-45

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.736.40

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Online since:

June 2017

Authors:

I.L. Polyanskaya, L.V. Belova

Keywords:

Ageing Temperature, Brittle Behavior, Dislocations, Impact Strength, Overageing, Strain Ageing, Tube Steel

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References

[1] A.G. Zhulin, L.V. Belova, Reduction of carbon dioxide concentration in the groundwater on septate degasifier, J. Sci. Water Supply and Sanitary Equipment. 1 (2011) 33-38.

Google Scholar

[2] A.G. Gumerov, R.S. Zainullin, K.M. Yamaleev, A.V. Roslyakov, Ageing of oil pipes, Nedra, Moscow, (1995).

Google Scholar

[3] K.M. Yamaleev, A.V. Paul, Structural mechanism of tube steel ageing in operating oil pipelines, J. Sci. Oil Industry. 11 (1988) 61.

Google Scholar

[4] I.L. Polyanskaya, N.I. Krasovskaya, Changed properties of tube steels in continued operation, in: Collection of Scientific Papers SWorld, 16 (4) (2013) 24-26.

Google Scholar

[5] R.S. Zainullin., A.V. Sukhanov, V.A. Vorobyev, Kinetics of strain ageing of low carbon and low alloy steels, Nedra, Moscow, (1993).

Google Scholar

[6] A.G. Gumerov, K.M. Yamaleev, G.V. Zhuravlev, F.I. Badikov, Crack resistance in oil pipelines metal, Ltd. Nedra, Moscow, Business Centre, (2001).

Google Scholar

[7] A.M. Zinevich, Reliability of main pipelines functioning, J. Sci. Welding in Machine-building Industry. 11 (1992) 57.

Google Scholar

[8] V.V. Kharitonovsky, I.N. Kurganova, O.M. Ivantsov et al., Prediction of structural reliability indexes of pipelines, J. Sci. Construction of pipelines. 3 (1996) 26-29.

Google Scholar

[9] G.A. Filippov, O.V. Livanova, V.F. Dmitriev, Degradation of properties of metals during continued operation of pipelines, J. Sci. Steel. (2003) 84-87.

Google Scholar

[10] A.E. Zorin, A.B. Muradov, Corrosion-mechanical fracture of tube steels of 17G1S type after continued operation and elastic-plastic deformation, J. Sci. Oil, Gas and Business. 4 (2009) 42-43.

Google Scholar