Edição |
Seção |
Título |
Arquivo |
Volume 2016, Nº 4 (2016) |
Structure and Properties of the Deformed State |
Laws of the deformation-induced structural transformation in bainitic steel |
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Volume 2016, Nº 4 (2016) |
Structure and Properties of the Deformed State |
Formation of internal stress fields in rails during long-term operation |
|
Volume 2016, Nº 10 (2016) |
Diagnostics and Mechanical Test Techniques |
Estimation of the residual stresses in rails using electromagnetic–acoustic introduction–reception of waves |
|
Volume 2016, Nº 11 (2016) |
Article |
Structure of electroexplosive TiC–Ni composite coatings on steel after electron-beam treatment |
|
Volume 2017, Nº 4 (2017) |
Applied Problems of Strength and Plasticity |
Nanoscale localization of plastic deformation in steel with a bainitic structure |
|
Volume 2017, Nº 7 (2017) |
Article |
Structure and properties of the layer deposited onto a low-carbon steel and then irradiated by an electron beam |
|
Volume 2017, Nº 10 (2017) |
Applied Problems of Strength and Plasticity |
Evolution of the structure and the phase composition of a bainitic structural steel during plastic deformation |
|
Volume 2018, Nº 4 (2018) |
Diagnostics and Mechanical Test Techniques |
Effect of the Rail-Carried Tonnage on the Ultrasonic Surface and Lateral Wave Velocities |
|
Volume 2018, Nº 10 (2018) |
Applied Problems of Strength and Plasticity |
Contributions of Various Mechanisms to the Hardening of Differentially Quenched Rails during Long-Term Operation |
|
Volume 2019, Nº 4 (2019) |
Advanced Materials and Technologies |
Structural-Phase State and the Properties of Silumin after Electron-Beam Surface Treatment |
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Volume 2019, Nº 7 (2019) |
Article |
Formation of Gradient Structure–Phase States in the Surface Layers of 100-m Differentially Quenched Rails |
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Volume 2019, Nº 10 (2019) |
Advanced Materials and Technologies |
Wear Resistance of the Surface Layers in Silumin after Electron-Beam Treatment |
|
Volume 2019, Nº 10 (2019) |
Advanced Materials and Technologies |
Structure and Electroerosion Resistance of the Ag–CuO Coating Prepared by Electroexplosive Sputtering on Copper Electrical Contacts |
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