Add to ORKGPulsed high-energy ion beams have been used to thermally treat Ti and Ti alloy surfaces to alter the electrochemical response. Two regimes have been explored: rapid melt and resolidification, and ion beam mixing. In this report, results from initial studies are presented exploring effect of these two regimes on the electrochemical behavior of Ti and Ti alloys
The objective of the present research is development of НРРІВ technology for surface processing of c...
The physicomechanical properties of the VT1-0 titanium surface modified by a pulsed carbon ion beam ...
High-power pulsed ion beam (HPPIB) treatment and arc-pulsed ion implantation (APII) were combined co...
The emerging technology of pulsed intense ion beams has been shown to lead to improvements in surfac...
Abstract – Investigation results of elemental com-position, structural-phase conditions and surface ...
We have conducted surface treatment and alloying experiments with Al, Fe, and Ti-based metals on the...
Electron beam processing is an efficient technology to reduce emissions of pollutants from flue gase...
Metallic materials are commonly used in biomedical applications, especially with the increased use o...
By methods of modern physical metallurgy the analysis of structure phase states of titanium alloy VT...
Intense, pulsed ion beams were used to melt and rapidly resolidify Types 316F, 316L and sensitized 3...
Pulsed electron-beam irradiation was used as a finishing process for Ti-6Al-7Nb titanium alloy to in...
Use of intense pulsed ion beams is providing a new capability for surface engineering based on rapid...
The influence of intense pulsed electron beam (IPEB) treatment on the chemical composition and struc...
This paper reports the first results of an ongoing research work on rapid surface alloying of an AI...
The emerging capability to produce high average power (10--300 kW) pulsed ion beams at 0.2{minus}2 M...
The objective of the present research is development of НРРІВ technology for surface processing of c...
The physicomechanical properties of the VT1-0 titanium surface modified by a pulsed carbon ion beam ...
High-power pulsed ion beam (HPPIB) treatment and arc-pulsed ion implantation (APII) were combined co...
The emerging technology of pulsed intense ion beams has been shown to lead to improvements in surfac...
Abstract – Investigation results of elemental com-position, structural-phase conditions and surface ...
We have conducted surface treatment and alloying experiments with Al, Fe, and Ti-based metals on the...
Electron beam processing is an efficient technology to reduce emissions of pollutants from flue gase...
Metallic materials are commonly used in biomedical applications, especially with the increased use o...
By methods of modern physical metallurgy the analysis of structure phase states of titanium alloy VT...
Intense, pulsed ion beams were used to melt and rapidly resolidify Types 316F, 316L and sensitized 3...
Pulsed electron-beam irradiation was used as a finishing process for Ti-6Al-7Nb titanium alloy to in...
Use of intense pulsed ion beams is providing a new capability for surface engineering based on rapid...
The influence of intense pulsed electron beam (IPEB) treatment on the chemical composition and struc...
This paper reports the first results of an ongoing research work on rapid surface alloying of an AI...
The emerging capability to produce high average power (10--300 kW) pulsed ion beams at 0.2{minus}2 M...
The objective of the present research is development of НРРІВ technology for surface processing of c...
The physicomechanical properties of the VT1-0 titanium surface modified by a pulsed carbon ion beam ...
High-power pulsed ion beam (HPPIB) treatment and arc-pulsed ion implantation (APII) were combined co...