Modification of the surface layer of the system coating (TiCuN)/substrate (A7) by an intensive electron beam

Abstract The focus of the study was to investigate the peculiarities of the domains created by electron beam (e-beam) in a surface layer of congruent lithium niobate, which comparable to a depth of electron beam charge penetration. Direct e-beam writing (DEBW) of different domain structures with a scanning electron microscope was performed on the polar -Z cut. Accelerating voltage 15 kV and e-beam current 100 pA were applied. Different patterns of local irradiated squares were used to create domain structures and single domains. No domain contrast was observed by the PFM technique. Based on chemical etching, it was found that the vertices of the domains created do not reach the surface level. The average deepening of the domain vertices was several hundred nanometers and varied depending on the irradiation dose and the location of the irradiated areas (squares) relative to each other. Computer simulation was applied to analyze the spatial distribution of the electric field in the various irradiated patterns. The deepening was explained by the fact that in the near-surface layer there is a sign inversion of the normal component of the electric field strength vector, which controls the domain formation during DEBW. Thus, with the help of e-beam, domains were created completely located in the bulk, in contrast to the domains that are nucleated on the surface of the -Z cut during the polarization inversion with AFM tip. The detected deepening of e-beam domains suggests the possibility of creating the “head-to-head” domain walls in the near-surface layer lithium niobate by DEBW.

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Changes in the operational properties of steel 40x during modification of the surface layer with organosilicate antifriction composites and tribological tests

The Development of Science in the 21st Century: Natural and Technical Sciences ◽

10.17809/06(2015)-11 ◽

2015 ◽

Author(s):

L. B. Leontev ◽

N. P. Shapkin ◽

A. L. Leontev

Keyword(s):

Surface Layer ◽

Tribological Tests ◽

Antifriction Composites ◽

Modification Of The Surface

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Structure phase states formation of Ti-Y surface layer by electro explosion and electron-beam treatment

Materials and Electronics Engineering ◽

10.11605/mee-2-3 ◽

2015 ◽

Vol 2 (3) ◽

Cited By ~ 1

Author(s):

V.E. Gromov ◽

K.V. Sosnin ◽

Yu.F. Ivanov ◽

X.L. Wang ◽

M.S. Liu ◽

...

Keyword(s):

Surface Layer ◽

Electron Beam ◽

Electron Beam Treatment ◽

Structure Phase

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Continuous Electron Beam Post-Treatment of EBF3-Fabricated Ti–6Al–4V Parts

Metals ◽

10.3390/met9060699 ◽

2019 ◽

Vol 9 (6) ◽

pp. 699 ◽

Cited By ~ 12

Author(s):

Alexey Panin ◽

Marina Kazachenok ◽

Olga Perevalova ◽

Sergey Martynov ◽

Alexandra Panina ◽

...

Keyword(s):

Surface Layer ◽

Electron Beam ◽

Surface Finish ◽

Martensitic Transformations ◽

Post Treatment ◽

X Ray Diffraction ◽

Orthorhombic Martensite ◽

Α Phase ◽

Transmission Electron ◽

Outermost Surface

In the present study, the methods of optical, scanning electron, and transmission electron microscopy as well as X-ray diffraction analysis gained insights into the mechanisms of surface finish and microstructure formation of Ti–6Al–4V parts during an EBF3-process. It was found that the slip band propagation within the outermost surface layer provided dissipation of the stored strain energy associated with martensitic transformations. The latter caused the lath fragmentation as well as precipitation of nanosized β grains and an orthorhombic martensite α″ phase at the secondary α lath boundaries of as-built Ti–6Al–4V parts. The effect of continuous electron beam post-treatment on the surface finish, microstructure, and mechanical properties of EBF3-fabricated Ti–6Al–4V parts was revealed. The brittle outermost surface layer of the EBF3-fabricated samples was melted upon the treatment, resulting in the formation of equiaxial prior β grains of 20 to 30 μm in size with the fragmented acicular α′ phase. Electron-beam irradiation induced transformations within the 70 μm thick molten surface layer and 500 μm thick heat affected zone significantly increased the Vickers microhardness and tensile strength of the EBF3-fabricated Ti–6Al–4V samples.

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The analysis of friction properties after laser texturizing of the silicon carbide surface layer

MATEC Web of Conferences ◽

10.1051/matecconf/201818302010 ◽

2018 ◽

Vol 183 ◽

pp. 02010

Author(s):

Norbert Radek ◽

Agnieszka Szczotok ◽

Renata Dwornicka

Keyword(s):

Silicon Carbide ◽

Surface Layer ◽

Statistical Analysis ◽

Design Of Experiments ◽

Laser Beam ◽

High Reliability ◽

Laser Beam Machining ◽

Before And After ◽

High Roughness ◽

Modification Of The Surface

The modification of the surface properties is a desired technological procedure. One of the possible method is the electro-spark deposition (ESD). Unfortunately, ESD process produces a surface with high roughness. The laser beam machining (LBM) has been involved to lower roughness of the coating made by ESD. The elements coated by ESD have been tested to determine tribological properties and they were compared before and after LBM. To achieve high reliability of the results, the test has been conducted in accordance with design of experiments methodology and the results which were obtained have been processed by a statistical analysis. The description of such an experiment performed for a silicon carbide SiC coating, the obtained results and the conclusions are included in this paper.

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Micromechanical Properties of Surface Layer of Electron Beam Irradiated of Glass-Filled PA6

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.752-753.363 ◽

2015 ◽

Vol 752-753 ◽

pp. 363-368

Author(s):

David Manas ◽

Martin Ovsik ◽

Miroslav Manas ◽

Michal Stanek ◽

Petr Fiala ◽

...

Keyword(s):

Surface Layer ◽

Electron Beam ◽

Beta Radiation ◽

Indentation Hardness ◽

Radiation Doses ◽

High Radiation ◽

Micromechanical Properties ◽

Injection Technology

Micromechanical changes in the surface layer of glass-filled PA-6 modified by beta radiation were measured by instrumented test of microhardness. The specimens were prepared by injection technology and subjected to radiation doses of 0, 66, 99, 132 kGy. Measurements of microhardness showed considerable changes of behavior of surface layer in middle as well as high radiation doses with higher values of indentation hardness and stiffness.

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Modification of the Titanium Surface Layer by the Yttrium

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1085.63 ◽

2015 ◽

Vol 1085 ◽

pp. 63-67

Author(s):

Yurii F. Ivanov ◽

Natalja Popova ◽

Mark Kalashnikov ◽

Victor Gromov ◽

Evgeniy Budovskih ◽

...

Keyword(s):

Surface Layer ◽

Electron Beam ◽

Phase Composition ◽

Friction Coefficient ◽

Wear Rate ◽

High Intensity ◽

Titanium Surface ◽

Mechanical And Tribological Properties ◽

Modified Layer ◽

Combined Technique

Modification of a titanium surface layer with yttrium using the combined technique of electroexplosive doping and the subsequent irradiation by a high-intensity electron beam is carried out. The studies on the structure, the element and the phase composition, mechanical and tribological properties of the doped layer are carried out. Formation of a multiphase submicron-nanocrystalline eutectic is revealed. A multifold increase in the microhardness, a decrease in the friction coefficient and the wear rate of the modified layer is established.

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