Impact of Volume and Surface Heat Treatment on the Structure and Properties of Steel 30HGSA
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KU Publ.
Abstract
The work presents the results of a comparative study of volumetric and surface heat treatment impact on the
structural-phase states, hardness, and wear resistance of steel 30HGSA. Surface hardening was conducted by
the electrolyte-plasma method. Bulk quenching of the samples was carried out by heating to a temperature of
900 °C, followed by cooling in water and oil, and some of the samples after quenching were annealed at a
temperature of 510 °C. The structural-phase states of 30HGSA steel samples were studied by metallographic
and X-ray structural analysis. There were carried out the microhardness measurements, tribological tests according
to the ball-disk scheme, as well as was determined the resistance of the samples to abrasive wear. It
was determined that after electrolytic-plasma hardening, fine-acicular martensite with a small content of cementite
is formed on the basis of metallographic and X-ray structural analyzes, and coarse-acicular martensite
is formed after volume quenching in water and oil. It was determined that the microhardness increased to
400-460 HV after volume quenching, and subsequent annealing leads to a decrease in hardness to 330-360
HV. It was revealed that the electrolyte-plasma surface hardening leads to an increase in microhardness up to
2 times due to the formation of fine-acicular martensite.
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Citation
Rakhadilov B.K. Impact of Volume and Surface Heat Treatment on the Structure and Properties of Steel 30HGSA/B.K. Rakhadilov [et al]//Қарағанды университетінің хабаршысы. Физика сериясы.= Вестник Карагандинского университета. Серия Физика. = Bulletin of the Karaganda University. Physics Series. -2021. №4. Р.16-24.