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- Title
Analysis of Thermal Physical Processes and Peculiarities of Modification of a Steel Surface by Pulsed Plasma Flows.
- Authors
Zhukeshov, A. M.; Gabdullina, A. T.; Amrenova, A. U.; Abdraimova, G. A.; Mukhamedryskyzy, M.
- Abstract
The temperature gradient and melting depth of the surface of iron-based alloys under the action of high-temperature pulsed plasma beams have been estimated and compared with the experimental data. It has been shown that the steel surface melts under the action of a pulsed plasma flow at an energy density of 15– 20 J/cm2; the heat front propagates to a depth of up to 20 μm, the thickness of the molten layer being less than 10 μm. The characteristic size of the microstructure formed as a result of thermal perturbation is estimated at 17 nm. The formation of new phases with crystallite sizes that vary in the range of 16–270 nm is demonstrated experimentally. It has been shown that the formation of nanosize crystalline structure and modified near-surface region are the main factors responsible for strengthening steels.
- Publication
Technical Physics, 2017, Vol 62, Issue 12, p1817
- ISSN
1063-7842
- Publication type
Academic Journal
- DOI
10.1134/S1063784217120283