E. N. Stepanova scite author profile

A pulsed action of an electron beam on a Zr-1% Nb zirconium alloy is studied. Alloy samples are irradiated by three 50 μs pulses at an energy density of 15-25 J/cm 2 , a power of (3-6) × 10 4 W/cm 2 , a current density of 10-50 A/cm 2 , and an electron energy of 18 keV. This method of processing is found to modify the surface layer of the alloy without changing the structure-phase state of its volume. This surface modification increases the hydrogen saturation resistance of the alloy.

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Positron annihilation spectroscopy study of defects in hydrogen loaded Zr-1Nb alloy

Bordulev

Kudiiarov

Svyatkin

et al. 2019

Journal of Alloys and Compounds

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First-Principles Calculations and Experimental Study of H+-Irradiated Zr/Nb Nanoscale Multilayer System

Laptev

Svyatkin

Krotkevich

et al. 2021

Metals

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Nanoscale multilayer coating (NMC) based on Zr/Nb layers (100/100 nm) before and after H+ irradiation was investigated by combining experimental techniques with first-principles calculations. Detailed studies of structural and phase state and defect structure of Zr/Nb NMC were performed using methods of transmission electron microscopy, X-ray structural analysis, glow discharge optical emission spectrometry, and the Doppler broadening spectroscopy using variable energy positron beam. The first-principles calculations of binding energies for hydrogen in metal Zr/Nb layers was carried out by the pseudopotential method within the density functional theory framework. First-principles calculations and experimental data indicate the presence of macro- and microstrains predominantly in the zirconium layers of Zr/Nb NMC. The main feature of the studied Zr/Nb NMC is the predominant hydrogen localization in Zr layers near the interfaces. The annihilation of positrons is shown to occur mainly in the Zr layers in the vicinity of the interface.

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Surface Modification of the EBM Ti-6Al-4V Alloy by Pulsed Ion Beam

Pushilina

Stepanova

Stepanov

et al. 2021

Metals

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The effect of surface modification of Ti-6Al-4V samples manufactured by electron beam melting (EBM) using a pulsed carbon ion beam is studied in the present work. Based on the results of XRD, SEM, and TEM analysis, patterns of changes in the microstructure and phase composition of the EBM Ti-6Al-4V alloy, depending on the number of pulses of pulsed ion beam exposure, are revealed. It was found that gradient microstructure is formed as a result of pulsed ion beam irradiation of the EBM Ti-6Al-4V samples. The microstructure of the surface layer up to 300 nm thick is represented by the (α + α”) phase. At depths of 0.3 μm, the microstructure is mixed and contains alpha-phase plates and needle-shaped martensite. The mechanical properties were investigated using methods of uniaxial tensile tests, micro- and nanohardness measurements, and tribological tests. It was shown that surface modification by a pulsed ion beam at an energy density of 1.92 J/cm2 and five pulses leads to an increase in the micro- and nanohardness of the surface layers, a decrease in the wear rate, and a slight rise in the plasticity of EBM Ti-6Al-4V alloy.

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The Effect of Irradiation of a Titanium Alloy of the Ti–6Al–4V–Н System with Pulsed Electron Beams on Its Creep

et al. 2020

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Effect of hydrogen on the structural and phase state and defect structure of titanium alloy

Stepanova¹,

Bordulev²,

Kudiiarov³

et al. 2016

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Effect of hydrogen on the low-temperature creep of a submicrocrystalline Ti-6Al-4V alloy

2010

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Effect of hydrogen on the creep of the ultrafine-grained zirconium Zr–1Nb alloy at 673 K

Grabovetskaya

Stepanova

Dubrovskaya

2017

International Journal of Hydrogen Energy

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E. N. Stepanova

Properties and structural state of the surface layer in a zirconium alloy modified by a pulsed electron beam and saturated by hydrogen

Positron annihilation spectroscopy study of defects in hydrogen loaded Zr-1Nb alloy

First-Principles Calculations and Experimental Study of H+-Irradiated Zr/Nb Nanoscale Multilayer System

Surface Modification of the EBM Ti-6Al-4V Alloy by Pulsed Ion Beam

The Effect of Irradiation of a Titanium Alloy of the Ti–6Al–4V–Н System with Pulsed Electron Beams on Its Creep

Effect of hydrogen on the structural and phase state and defect structure of titanium alloy

Effect of hydrogen on the low-temperature creep of a submicrocrystalline Ti-6Al-4V alloy

Effect of hydrogen on the creep of the ultrafine-grained zirconium Zr–1Nb alloy at 673 K

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