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A Study of the Structure of the Surface Layer of Medium-Carbon Steel Hardened by Electromechanical Treatment.
Published in:
Metal Science & Heat Treatment, 2002, v. 44, n. 11/12, p. 514, doi. 10.1023/A:1022513007479
By:
- Bagmutov, V. P.;
- Dudkina, N. G.;
- Zakharov, I. N.
Publication type:
Article
Simulation of Structure Inhomogeneity and Stress Behavior Generation in Titanium Alloys During Pulsed Electromechanical Treatment.
Published in:
Russian Physics Journal, 2024, v. 66, n. 11, p. 1162, doi. 10.1007/s11182-023-03058-0
By:
- Bagmutov, V. P.;
- Denisevich, D. S.;
- Zakharov, I. N.;
- Barinov, V. V.;
- Zadorozhny, V. S.
Publication type:
Article
Effect of Electromechanical and Ultrasonic Impacts on Fatigue Performance of Titanium Alloys.
Published in:
Russian Physics Journal, 2023, v. 66, n. 10, p. 1094, doi. 10.1007/s11182-023-03047-3
By:
- Bagmutov, V. P.;
- Romanenko, M. D.;
- Zakharov, I. N.;
- Dudkina, N. G.;
- Zadorozhny, V. S.
Publication type:
Article
Electromechanical Hardening of Nanostructured Alloy Layers Applied in Surfacing.
Published in:
Russian Engineering Research, 2016, v. 36, n. 2, p. 100, doi. 10.3103/S1068798X16020210
By:
- Sokolov, G. N.;
- Artem'ev, A. A.;
- Zorin, I. V.;
- Dubtsov, Yu. N.;
- Litvinenko*Ar'kov, V. B.;
- Lysak, V. I.;
- Bagmutov, V. P.;
- Zakharov, I. N.
Publication type:
Article
The Influence of Surface Hardening by Combined Thermo-Forced Impacts on the Fatigue Life and Damage of the VT22 Titanium Alloy.
Published in:
Russian Journal of NonFerrous Metals, 2021, v. 62, n. 1, p. 64, doi. 10.3103/S106782122101003X
By:
- Bagmutov, V. P.;
- Vodop'yanov, V. I.;
- Zakharov, I. N.;
- Denisevich, D. S.;
- Romanenko, M. D.;
- Nazarov, N. G.
Publication type:
Article
Statistical strength criterion for materials with hexagonal close-packed crystal lattice.
Published in:
Mechanika, 2014, v. 20, n. 3, p. 259, doi. 10.5755/j01.mech.20.3.4964
By:
- Bagmutov, V. P.;
- Bogdanov, E. P.;
- Shkoda, I. A.
Publication type:
Article
About the Regularities of Fatigue Fracture and Fatigue Strength Due to the Influence of Asymmetry of the Tension Cycle.
Published in:
Mechanika, 2018, v. 24, n. 5, p. 685, doi. 10.5755/j01.mech.24.5.14474
By:
- BAGMUTOV, V. P.;
- BELOV, A. A.;
- VODOPYANOV, V. I.;
- KONDRATYEV, O. V.
Publication type:
Article

Found: 7

A Study of the Structure of the Surface Layer of Medium-Carbon Steel Hardened by Electromechanical Treatment.

Simulation of Structure Inhomogeneity and Stress Behavior Generation in Titanium Alloys During Pulsed Electromechanical Treatment.

Effect of Electromechanical and Ultrasonic Impacts on Fatigue Performance of Titanium Alloys.

Electromechanical Hardening of Nanostructured Alloy Layers Applied in Surfacing.

The Influence of Surface Hardening by Combined Thermo-Forced Impacts on the Fatigue Life and Damage of the VT22 Titanium Alloy.

Statistical strength criterion for materials with hexagonal close-packed crystal lattice.

About the Regularities of Fatigue Fracture and Fatigue Strength Due to the Influence of Asymmetry of the Tension Cycle.