Effect of Plasma Quenching Parameters on Hardened Layer Properties in Railroad Wheels

Effect of Plasma Quenching Parameters on Hardened Layer Properties in Railroad Wheels

This research investigates the effect of quenching current, nozzle-to-surface distance, plasma-forming gas flow rate, and rate of cooling on both plasma torch travel speed (treatment speed) and nozzle diameter. Cooling rates were calculated for various quenching currents based on heat transfer theor...

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Bibliographic Details
Main Authors: Azamat Kanayev, Amangeldy Kanayev, Aliya Moldakhmetova
Format: Article
Language:English
Published: University of Kragujevac 2025-03-01
Series:Tribology in Industry
Subjects:
surface hardening
plasma selective quenching
railroad wheels
structure
mechanical properties
wear resistance
rotation frequency
Online Access:https://www.tribology.rs/journals/2025/2025-1/2025-1-05.html
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Summary:This research investigates the effect of quenching current, nozzle-to-surface distance, plasma-forming gas flow rate, and rate of cooling on both plasma torch travel speed (treatment speed) and nozzle diameter. Cooling rates were calculated for various quenching currents based on heat transfer theory. Results show that the relative significance of primary plasma selective quenching parameters remains consistent for both hardened zone depth and width. Notably, the effect of quenching current on hardened zone depth significantly exceeds that of other parameters, highlighting its critical role for optimizing railroad wheel performance. We propose a novel method for controlling the mechanical properties of the hardened surface through regulating wheelset rotational speed during quenching. This approach has the potential to significantly improve the wear resistance and lifespan of railroad wheels, leading to substantial cost savings for the railway industry.
ISSN:0354-8996
2217-7965

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