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The Effects of Quenching and Tempering Treatment on the Hardness and Microstructures of a Cold Work Steel

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2019-03-03
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This work is licensed under a Creative Commons Attribution 4.0 International License.

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Kiválasztott formátum: APA
Tóth, L., & Fábián, R. (2019). The Effects of Quenching and Tempering Treatment on the Hardness and Microstructures of a Cold Work Steel. International Journal of Engineering and Management Sciences, 4(1), 286-294. https://doi.org/10.21791/IJEMS.2019.1.36.
Absztrakt

The X153CrMoV12 ledeburitic chromium steel characteristically has high abrasive wear resistance, due to their high carbon and high chromium contents with a large volume of carbides in the microstructure. This steel quality has high compression strength, excellent deep hardenability and toughness properties, dimensional stability during heat treatment, high resistance to softening at elevated temperatures. The higher hardness of cryogenic treated samples in comparison with conventional quenched samples mean lower quantity of retained austenite as at samples quenched to room temperature and tempered in similar condition. In the microstructure of samples were observed that the primary carbide did not dissolve at 1070°C and their net structure have not been changed during to heat treatment. During to tempering at high temperature the primary carbides have become more and more rounded. After low tempering temperature in martensite were observed some small rounded carbides also, increasing the tempering temperature the quantity of finely dispersed carbides increased, which result higher hardness. The important issues in heat treatment of this steels are the reduction or elimination of retained austenite due to cryogenic treatment.

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