Influence of Thermocyclic Electrolyte-Plasma Treatment on Mechanical Properties of U9 Tool Steel
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Karagandy University of the name of academician E.A. Buketov
Abstract
The article investigates the influence of thermocyclic electrolytic-plasma treatment (EPT) on the mechanical
properties of carbon steel U9 tool steel. U9 steel is often used for manufacturing tools working in conditions
that do not cause edge heating: woodworking tools, assembly tools, gauges of simple shape and reduced ac
curacy classes. In this work, thermocyclic electrolytic-plasma treatment was used as a method of improving
mechanical properties. This method combines electrochemical reactions and intensive thermal influence,
which allows the formation of surface layers with improved characteristics. As a result of the treatment, U9
steel shows a clear division of the microstructure into three zones: hardened layer, transition layer and base
metal. The hardened layer, located up to a depth of 400 μm, is characterized by a finely dispersed structure
consisting of martensite and bainite with high hardness (1400–1600 HV
.
). This layer provides excellent
wear resistance and resistance to mechanical stress. The transition layer (400–700 µm) serves as a buffer
zone, distributing stresses evenly. It is characterized by a gradual decrease in hardness (800–1200 HV
.
) and
a change in structure due to a decrease in martensite content. The base metal, deeper than 700 μm, retains the
original structure with hardness 400–600 HV
.
, which ensures its ductility and durability. The results show
that thermocyclic EPT significantly improves the performance properties of U9 steel by creating a functional
ly gradient structure. The technology is energy efficient and can be widely used in mechanical engineering
and other industries where high mechanical characteristics of materials are required.
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Influence of Thermocyclic Electrolyte-Plasma Treatment on Mechanical Properties of U9 Tool Steel/ Sulyubayeva L.G. [et al.] // Bulletin of the Karaganda University. “Physics” Series. — 2025. — Vol. 30, Iss. 1(117). — pp.77-88.