The high intensity implantation of aluminium ions into titanium
| Parent link: | Korus 2004: The 8th Korea-Russia International Symposium on Science and Technology, June 26 - July 3, 2004, At Tomsk Politechnic University, Russia/ Novosibirsk State Technical University; Tomsk Polytechnic University.— , 2004- V. 3.— 2004.— P. 127-131 |
|---|---|
| Další autoři: | , , , , , , |
| Shrnutí: | The phase composition, structural state and mechanical properties of the ion-alloyed surface layers of titanium implanted by the Al ions have been investigated. Ion implantation of the Al ions into titanium was carried out using the plasma-flow, vacuum-arc ion source "Raduga-5". It was found out that increase of the dose of Al ions from 2.2·1017 ion/cm2 to 2.2·1018 ion/cm2 led to the increase of the ion-alloyed layers thickness from 400 nm to 2600 nm. It was established that the fine dispersed equilibrium intermetallic phases Ti3Al, TiAl and the solid solution of aluminium in titanium were formed in the ion-modified layers. The increased average size of the intermetallic particles took place with the irradiation dose increasing. The agglomeration of the nanoscale particles occurred above the dose 6.2·1017 ion/cm2. It was found out, that the mechanical properties of the implanted Ti were higher than of the unimplanted material. |
| Jazyk: | angličtina |
| Vydáno: |
2004
|
| Témata: | |
| Médium: | Kapitola |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=215187 |
Podobné jednotky
High Intensity Implantation of Aluminium Ions into Titanium
Vydáno: (2004)
Vydáno: (2004)
High intensity implantation of aluminium lons into titanium
Vydáno: (2004)
Vydáno: (2004)
Microstructure of titanium alloy modified by high-intensity implantation of low- and high-energy aluminium ions
Vydáno: (2020)
Vydáno: (2020)
High Intensity low Aluminum Ion Energy Implantation into Titanium
Vydáno: (2018)
Vydáno: (2018)
Investigation of the Features of High-Intensity Implantation of Nitrogen Ions into Titanium
Vydáno: (2023)
Vydáno: (2023)
High-intensity low energy titanium ion implantation into zirconium alloy
Vydáno: (2018)
Vydáno: (2018)
Microstructure of Titanium Alloy Modified by High-Intensity Implantation of Low- and MediumEnergy Aluminum Ions
Vydáno: (2019)
Vydáno: (2019)
Study of the synergy effect of high-intensity aluminum ions implantation into titanium and energy impact on the surface
Vydáno: (2023)
Vydáno: (2023)
High-Intensity Implantation With an Ion Beam's Energy Impact on Materials
Autor: Ryabchikov A. I. Aleksandr Ilyich
Vydáno: (2021)
Autor: Ryabchikov A. I. Aleksandr Ilyich
Vydáno: (2021)
Special Aspects of High-Intensity Low-Energy Ion Implantation
Vydáno: (2021)
Vydáno: (2021)
High-intensity implantation of titanium into silicon using repetitively pulsed high-density beams
Vydáno: (2025)
Vydáno: (2025)
Investigation of High-Intensity Implantation of Titanium Ions into Silicon under Conditions of Beam Energy Impact on the Surface
Vydáno: (2024)
Vydáno: (2024)
High-Intensity Implantation of Metal Ions in Conditions of Minimizing Ion Sputtering of the Material Surface
Vydáno: (2019)
Vydáno: (2019)
Progress in low energy high intensity ion implantation method development
Autor: Ryabchikov A. I. Aleksandr Ilyich
Vydáno: (2020)
Autor: Ryabchikov A. I. Aleksandr Ilyich
Vydáno: (2020)
Progress in High Intensity, Low Ion Energy Implantation Method Development
Autor: Ryabchikov A. I. Aleksandr Ilyich
Vydáno: (2019)
Autor: Ryabchikov A. I. Aleksandr Ilyich
Vydáno: (2019)
Temperature gradients in targets at low energy high-intensity ion implantation
Vydáno: (2020)
Vydáno: (2020)
High-intensity chromium ion implantation into Zr-1Nb alloy
Vydáno: (2020)
Vydáno: (2020)
High-Intensity Implantation of Aluminum into Titanium Using Repetitiely-Pulsed High Power Density Beams
Vydáno: (2024)
Vydáno: (2024)
Influence of the High-Intensity Short-Pulse Implantation of Ions on the Properties of Polycrystalline Silicon
Vydáno: (2014)
Vydáno: (2014)
Study of Regularities of Titanium Accumulation and Diffusion in Silicon During Repetitively-Pulsed Implantation with a High-Intense Ion Beam
Vydáno: (2024)
Vydáno: (2024)
Modification of silicon under synergy of high-intensity implantation of titanium ions and energy influence of a high-power ion beam on a surface
Vydáno: (2024)
Vydáno: (2024)
Modification of 40X13 steel at high-intensity nitrogen ion implantation
Vydáno: (2018)
Vydáno: (2018)
High-intensity ion beams with submillisecond duration for synergistic of ion implantation and energy impact on the surface
Vydáno: (2022)
Vydáno: (2022)
Synergy of high-intensity chromium ion implantation and ion beam energy impact on the zirconium alloy surface
Vydáno: (2024)
Vydáno: (2024)
High-Intensity Titanium Ion Implantation into Aluminum under Conditions of Repetitively-Pulsed Energy Impact of a Beam on the Surface
Autor: Zaytsev D. D. Daniil Dmitrievich
Vydáno: (2024)
Autor: Zaytsev D. D. Daniil Dmitrievich
Vydáno: (2024)
DIN 1.7035 Steel Modification with High Intensity Nitrogen Ion Implantation
Vydáno: (2018)
Vydáno: (2018)
Features of titanium ion beams formation taking into account ion-electron emission realizing the synergy of high-intensity ion implantation and pulsed energy impact on the surface
Autor: D. O. Dimitry Olegovich
Vydáno: (2023)
Autor: D. O. Dimitry Olegovich
Vydáno: (2023)
The Influence of High-Power Ion Beams and High-Intensity Short-Pulse Implantation of Ions on the Properties of Ceramic Silicon Carbide
Vydáno: (2016)
Vydáno: (2016)
High intensity, low ion energy implantation of nitrogen in AISI 5140 alloy steel
Vydáno: (2018)
Vydáno: (2018)
Modification of Microstructure and Properties of Martensitic Stainless Steel by High-Intensity Implantation of Nitrogen Ions
Vydáno: (2019)
Vydáno: (2019)
Temperature gradients in targets with high-intensity implantation and their influence on the characteristics of ion-modified layers
Vydáno: (2019)
Vydáno: (2019)
Unfiltered Aluminium Vacuum Arc Plasma Application for High-Frequency Short-Pulse Plasma Immersion Ion Implantation
Vydáno: (2014)
Vydáno: (2014)
Temperature gradients in targets with high-intensity implantation and their influence on the characteristics of ion-modified layers
Vydáno: (2019)
Vydáno: (2019)
Structural and phase state of ti surface layers modified by high-intensity implantation of al ions
Vydáno: (2006)
Vydáno: (2006)
Repetitively-pulsed nitrogen implantation in titanium by a high-power density ion beam
Vydáno: (2022)
Vydáno: (2022)
Electrical and Photoelectric Properties of Polycrystalline Silicon after High-Intensity Short-Pulse Ion Implantation
Autor: Kabyshev A. V. Alexander Vasilievich
Vydáno: (2013)
Autor: Kabyshev A. V. Alexander Vasilievich
Vydáno: (2013)
Numerical Simulation of Thermal Processes and Influence of Heating Surface Layers of Silicon on the Titanium Accumulation and Diffusion During High-Intensity Pulse Ion Implantation
Autor: Ivanova A. I. Anna Ivanovna
Vydáno: (2024)
Autor: Ivanova A. I. Anna Ivanovna
Vydáno: (2024)
Surface Modification of E110 Alloy by High-Intensity Low Ion Energy Cr Implantation
Vydáno: (2019)
Vydáno: (2019)
High Intensive Short Pulsed Ions Implantation Effect on Electrical and Photoelectrical Properties of Polycrystalline Silicon
Autor: Kabyshev A. V. Alexander Vasilievich
Vydáno: (2012)
Autor: Kabyshev A. V. Alexander Vasilievich
Vydáno: (2012)
A high-current ion accelerator for short-pulse ion implantation
Vydáno: (1997)
Vydáno: (1997)