KnE Engineering

ISSN: 2518-6841

The latest conference proceedings on all fields of engineering.

Effect of Structure and Texture on Failure of Pipe Steel Sheets produced by TMCP

Published date:Apr 15 2019

Journal Title: KnE Engineering

Issue title: XIX International scientific-technical conference “The Ural school-seminar of metal scientists-young researchers”

Pages:121–127

DOI: 10.18502/keg.v1i1.4399

Authors:
Abstract:

The method of orientation microscopy (EBSD) is used to study the structure and texture of low-carbon, low-alloy pipe steel sheets processed by controlled thermomechanical processing (TMCP). The temperatures of isothermal hot rolling varied. Samples cut from sheets showed a different fracture tendency during mechanical testing. The formation of cleavages (secondary cracks) during failure of steel is related to the presence of ferrite grains with orientation {001} <110> extended in the hot rolling direction. The formation of grains is a consequence of the isothermal hot rolling below the temperature A

References:

[1] K. Hulka, P. Peters, F. Haisterkamp, Trends in the development of large-diameter pipe steels, Steel Transl. 27, No. 10 (1997) 64–70.


[2] M.-Sh. Zhao, K. Yang, Y. Shan, The effects of thermo-mechanical control process on microstructures and mechanical properties of a commercial pipeline steel, Mater. Sci. Eng. A, 335 (2002) 14–20.


[3] S. Endo, N. Nakata, Development of Thermo-Mechanical Control Process (TMCP) and high performance steel in JFE Steel. JFE Technical Report, 20 (2015) 1–7.


[4] G. Mannucci, G. Demofonti, Control of ductile fracture propagation in X80 gas line pipe, Thesis Proc. Int. Pipeline Technology Conf., Beijing, China, (2010) 412.


[5] I.Yu. Pyshmintsev, A.M. Mal’tseva, A.M. Gervas’ev, et al., Structure and properties of low-carbon steels subjected to pneumatic tests, Stal, No. 2 (2011) 75–81.


[6] T. Hara, Y. Shinohara, H. Asahi, and Y. Terada, Effects of microstructure and texture on DWTT properties for high strength line pipe steels, Proc. 6th IPC2006, Calgary, Alberta, Canada (2006).


[7] I.Yu. Pyshmintsev, A.O. Struin, A.M. Gervas’ev, et al., Effect of bainite crystallographic texture on failure of pipe steel sheets made by controlled thermomechanical treatment, Metallurgist, 60, No. 3–4, (2016) 405–412.


[8] I.Yu. Pyshmintsev, A.M. Gervasyev, R.H. Petrov, et al., Crystallographic texture as a factor enabling ductile fracture arrest in high strength pipeline steel, Mater. Sci. Forum, 702-703 (2012) 770–773.


[9] M.A. Mohtadi-Bonab, M. Eskandari, and J.A. Szpunar, Texture, local misorientation, grain boundary and recrystallization fraction in pipeline steels related to hydrogen induced cracking, Mater. Sci. Eng., A, 620 (2014) 97–106.


[10] S.V. Danilov, E.R. Struina, and M.D. Borodina, Splitting of pipe steel produced by TMCP, Steel Translation, 47, No. 3 (2017) 188–189.


[11] M.L. Lobanov, G.M. Rusakov, A.A. Redikul’tsev, et al., Research of special boundaries in lath martensite of low-carbon steel by orientation microscopy, Phys. Met. Metallogr. 117, No 3 (2016) 254-259.


[12] A.I. Stepanov, I.N. Ashikhmina, K.I. Sergeeva, et al., Structure and properties of lowalloy Cr-Mo-V steel after austenitization in the intercritical temperature range, Steel Translation, 44, No. 6 (2014) 469–473.


[13] M.L. Lobanov, M.D. Borodina, S.V. Danilov, et al., Texture Inheritance on Phase Transition in Low-Carbon, Low-Alloy Pipe Steel after Thermomechanical Controlled Processing, Steel Translation, 47, No. 11 (2017) 910–918.


[14] M. Hölscher, D. Raabe, and K. Lücke, Relationship between rolling textures and shear textures in f.c.c. and b.c.c. metals, Acta Metallurgica et Materialia 42, No 3 (1994) 879– 886.


[15] I.U. Pyshmintsev, I.N. Veselov, A.A. Yakovleva, et al., Evolution of the texture of lowcarbon microalloyed pipe steel in the seamless pipe manufacturing process, MRDMS 2016, AIP Conference Proceedings, 1785 (2016) 040053.

Recommendations
THE INFLUENCE OF MOLYBDENUM EQUIVALENT ON THE ANISOTROPY OF THERMAL EXPANSION OF TITANIUM MARTENSITE LATTICE
S. Demakov et al., KNE ENGINEERING, 2019
LOW TEMPERATURE GLASS SINTERING BASED ON SILICO SODIUM RESINS
M. P. Sáez-Pérez et al., KNE ENGINEERING, 2020
MATHEMATICAL MODEL OF HEAT EXCHANGE AND APPROXIMATE METHODS OF SOLUTION OF RADIATION TRANSFER EQUATION IN THE MELTING FURNACE TANK
V. Shvydkii et al., KNE ENGINEERING, 2018
DEVELOPING EFFECTIVE ROLL COOLING SYSTEMS BASED ON COMPUTATIONAL SIMULATION
Yu. I. Lipunov et al., KNE ENGINEERING, 2018
USE OF A PARABOLIC TROUGH COLLECTOR IN THE KINGDOM OF BAHRAIN CONDITIONS FOR WATER DESALINATION
A. Rashid, KNE ENGINEERING, 2018
PSA-STAGE FEATURES OF THE HYBRID MEMBRANE-SORPTION OXYGEN CONCENTRATOR
A. Tishin et al., KNE ENGINEERING, 2018
NUMERICAL STUDY OF BIRD FLU INFECTION PROCESS WITHIN A POULTRY FARM WITH AGE STRUCTURED MODEL
T. D. Nova et al., KNE ENGINEERING, 2019
COULOMB CORRECTIONS IN PHOTOELECTRON SPECTRA IN THE ADIABATIC LIMIT
M. Frolov et al., KNE ENGINEERING, 2018
EFFECT OF NITROGEN IMPLANTATION ON THE STRUCTURE AND PROPERTIES OF AUSTENITIC CORROSION-RESISTANT STEELS
D. Asanova et al., KNE ENGINEERING, 2019
CONCEPTUAL MODEL FOR SERIOUS GAMES DESIGN: CASE STUDY OF CHILDREN WITH ATTENTION DEFICIT HYPERACTIVITY DISORDER
D. Avila-Pesantez et al., KNE ENGINEERING, 2018
Powered by
Download
HTML
Cite
Share
statistics

554 Abstract Views

265 PDF Downloads