Formation of nanoscale carbon structures in the surface layer of metals under the impact of high intensity ion beam
| Parent link: | Applied Surface Science: Scientific Journal Vol. 310.— 2014.— [P. 204-209] |
|---|---|
| Yhteisötekijä: | |
| Muut tekijät: | , , , , |
| Yhteenveto: | Title screen This work represents the results of phase composition and the mechanical properties of tungsten and titanium after high-intensity pulsed ion beam (HPIB) treatment. It was shown that nanoscale carbide particles are formed under the HPIB influence in the surface layers of metals. Raising the pulse number results in increase of volume fraction of the carbide phases. The microhardness is 1.5-2 times more than the initial value and wear resistance of the metals improves in response to alloying of tungsten and titanium with carbon atoms accompanied by the formation of carbides. Режим доступа: по договору с организацией-держателем ресурса |
| Julkaistu: |
2014
|
| Aiheet: | |
| Linkit: | http://dx.doi.org/10.1016/j.apsusc.2014.04.068 |
| Aineistotyyppi: | Elektroninen Kirjan osa |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=645059 |
Samankaltaisia teoksia
Modification of the WC-Co carbide surface with high-intensity pulsed ion beam
Julkaistu: (2020)
Julkaistu: (2020)
Investigation of the Features of High-Intensity Implantation of Nitrogen Ions into Titanium
Julkaistu: (2023)
Julkaistu: (2023)
Formation of hardened layer in WC-TiC-Co alloy by treatment of high intensity pulse ion beam and compression plasma flows
Julkaistu: (2010)
Julkaistu: (2010)
Changing Mechanisms of High-Temperature Oxidation of Zr-1%Nb Alloy in Air and Steam by Surface Modification with Charged Particles
Julkaistu: (2025)
Julkaistu: (2025)
Combined Method of Cutting Tool Treatment
Tekijä: Tarbokov V. A. Vladislav Aleksandrovich
Julkaistu: (2019)
Tekijä: Tarbokov V. A. Vladislav Aleksandrovich
Julkaistu: (2019)
High-intensity ion beams with submillisecond duration for synergistic of ion implantation and energy impact on the surface
Julkaistu: (2022)
Julkaistu: (2022)
Effect of Preliminary Irradiation of 321 Steel Substrates with High-Intense Pulsed Ion Beams on Scratch Test Results of Subsequently Deposited AlN Coatings
Julkaistu: (2021)
Julkaistu: (2021)
A study on microstructure and service property of Ni3Al base alloy irradiated by intense pulsed ion beams
Julkaistu: (2002)
Julkaistu: (2002)
The effect of crater creation on the fatigue strength and corrosion resistance of steels and titanium alloys irradiated by high-power pulsed ion beams
Tekijä: Shulov V. A.
Julkaistu: (2002)
Tekijä: Shulov V. A.
Julkaistu: (2002)
Modification of AISI 420 Steel under Repetitively Pulsed Energetic Impact on the Surface of a Powerful Ion Beam of Submillisecond Duration
Tekijä: Merzlyakov I. Ivan
Julkaistu: (2024)
Tekijä: Merzlyakov I. Ivan
Julkaistu: (2024)
Effect on microstructure of Fe80B13Si7 metallic glass irradiated by high intensity pulsed ion beam and He ions
Julkaistu: (2022)
Julkaistu: (2022)
DIN 1.7035 Steel Modification with High Intensity Nitrogen Ion Implantation
Julkaistu: (2018)
Julkaistu: (2018)
Surface microstructure and phase structure of zirconia ceramics under intense pulsed ion beam irradiation
Julkaistu: (2023)
Julkaistu: (2023)
Influence of magnetic field of a radial focusing external magnetically insulated diode on emission behavior of intense pulsed ion beam
Julkaistu: (2023)
Julkaistu: (2023)
Effect on mechanics properties and microstructure of molybdenum by high intensity pulsed ion beam irradiation
Julkaistu: (2020)
Julkaistu: (2020)
Plasma-immersion formation of high-intensity gaseous ion beams
Julkaistu: (2019)
Julkaistu: (2019)
Titanium Surface Roughness Modification Using Ion Beam and Mechanical Method
Julkaistu: (2019)
Julkaistu: (2019)
Surface Modification of ZrO2-3Y2O3 with Highintensity Pulsed N2+ Ion Beams
Julkaistu: (2020)
Julkaistu: (2020)
High-power ion beam sources for industrial application
Julkaistu: (1997)
Julkaistu: (1997)
The influence of ion irradiation on the properties of ceramic silicon carbide
Julkaistu: (2016)
Julkaistu: (2016)
Mixing in TI/STEEL system under High-intensity pulsed ion beam impact
Julkaistu: (2022)
Julkaistu: (2022)
Repetitively-pulsed nitrogen implantation in titanium by a high-power density ion beam
Julkaistu: (2022)
Julkaistu: (2022)
Effects on structure and properties of Zr55Al 10Cu30Ni5 metallic glass irradiated by high intensity pulsed ion beam
Julkaistu: (2014)
Julkaistu: (2014)
Study of craters formed on surface of AISI 321 stainless steel after high power ion-beam exposure
Julkaistu: (2022)
Julkaistu: (2022)
Formation features of microstructure, elemental and phase compositions of the C-Cr-Mn-V-Fe coatings under conditions of electron beam (EB) Surfacing in vacuum
Tekijä: N. K. Nina Konstantinovna Galchenko
Julkaistu: (2024)
Tekijä: N. K. Nina Konstantinovna Galchenko
Julkaistu: (2024)
High Chromium Steel Modification by the Intense Discrete Electron Beam: Structure and Properties
Julkaistu: (2018)
Julkaistu: (2018)
A method of real-time monitoring beam output stability of intense pulsed ion beam
Julkaistu: (2023)
Julkaistu: (2023)
Study of phase transformation and surface microstructure of alumina ceramic under irradiation of intense pulsed ion beam
Julkaistu: (2021)
Julkaistu: (2021)
Microstructure Formation and Mechanical Properties of Metastable Titanium-Based Gradient Coating Fabricated via Intense Pulse Ion Beam Melt Mixing
Julkaistu: (2023)
Julkaistu: (2023)
The Influence of Metal Surface Topography on Ablation Behavior During Intense Pulsed Ion Beam Irradiation
Julkaistu: (2019)
Julkaistu: (2019)
Hardening the surface of metals with WC1-x coatings deposited by high-speed plasma spraying
Julkaistu: (2020)
Julkaistu: (2020)
Investigation of the effects of an intense pulsed ion beam on the surface melting of IN718 superalloy prepared with selective laser melting
Julkaistu: (2020)
Julkaistu: (2020)
Crater formation on the surface of refractory alloys during high-power ion-beam processing
Julkaistu: (2007)
Julkaistu: (2007)
Focusing of intense pulsed ion beam by magnetically insulated diode for material research
Julkaistu: (2020)
Julkaistu: (2020)
Study on the damage of Zr63.5Cu23Al9Fe4.5 amorphous and crystalline alloys irradiated by high intensity pulsed ion beam
Julkaistu: (2022)
Julkaistu: (2022)
Study on thermal shock irradiation resistance of CoCrFeMnNi high entropy alloy by high intensity pulsed ion beam
Julkaistu: (2022)
Julkaistu: (2022)
Study on the damage of Fe80B13Si7 alloy with different structure by high-intensity pulsed ion beam irradiation
Julkaistu: (2020)
Julkaistu: (2020)
The ablation of plastics by intense pulsed ion beam
Julkaistu: (2020)
Julkaistu: (2020)
Influence of Surface Sputtering during High-Intensity, Hot Ion Implantation on Deep Alloying of Martensitic Stainless Steel
Julkaistu: (2023)
Julkaistu: (2023)
Low energy, high intensity metal ion implantation method for deep dopant containing layer formation
Julkaistu: (2018)
Julkaistu: (2018)