N. V. Urtsev scite author profile

The paper describes some aspects of a scientific and research project dedicated to mechanical property prediction in plates for pipe production rolled at PJSC MMK 5000 Mill. The prediction is based on billet thermal state modelling by thermo-mechanical control process (TMCP) of rolling and subsequent cooling. The central focus of the modelling is the calculation of billet layer-by-layer cooling trajectory. The paper presents some results of model verification by test rolling.

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Tensile Deformation and Fracture Behavior of API-5L X70 Line Pipe Steel

Лобанов

Хотинов

Urtsev³

et al. 2022

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Thermo-mechanical controlled processing (TMCP) is employed to obtain the required level of mechanical properties of contemporary HSLA steel plates utilized for gas and oil pipeline production. The strength and crack resistance of pipeline steels are mainly determined by its microstructure and crystallographic texture. In this study, the influence of the structural and textural states of industrially produced API-5L X70-X80 pipeline steels on tensile mechanical properties was analyzed. TMCP routes with different hot rolling temperatures and cooling rates were employed. The texture of steel was assessed using the Taylor factor, which was calculated based on electron backscatter diffraction (EBSD). The decrease in rolling temperature resulted in the sharper texture characterized by {001} planes banding (cleavage planes in the bcc lattice) parallel to rolling direction. The tensile deformation behavior at the stage of necking was determined by the crystallographic and morphological texture of the material and demonstrated significant anisotropy. Rupture of all investigated samples was accompanied by the development of splitting on the fracture surface. The splitting was localized in the rolling plane similar to the splitting in standard Charpy tests of pipeline steels.

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Structural and Textural States of Steel 06G2MB Strips After Controlled Thermomechanical Treatment

et al. 2020

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N. V. Urtsev

Phenomenological Model of Austenite Decomposition Kinetics in Low-Carbon Low-Alloy High-Strength Steels

Formation of the Structural State of a High-Strength Low-Alloy Steel upon Hot Rolling and Controlled Cooling

Model of Layer-by-Layer Cooling Trajectory in Rolled Products by TMCP

Tensile Deformation and Fracture Behavior of API-5L X70 Line Pipe Steel

Structural and Textural States of Steel 06G2MB Strips After Controlled Thermomechanical Treatment

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