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dc.contributor.authorBublíková, Dagmar
dc.contributor.authorJirková, Hana
dc.contributor.authorRubešová, Kateřina
dc.contributor.authorPeković, Michal
dc.contributor.authorVolkmannová, Julie
dc.contributor.authorGraf, Marcel
dc.date.accessioned2019-09-02T10:00:14Z-
dc.date.available2019-09-02T10:00:14Z-
dc.date.issued2019
dc.identifier.citationBUBLÍKOVÁ, D., JIRKOVÁ, H., RUBEŠOVÁ, K., PEKOVIĆ, M., VOLKMANNOVÁ, J., GRAF, M. Effects of Cooling Rate on the volume fraction of retained austenite in high-strenght MN-SI steels. Acta Metallurgica Slovaca, 2019, roč. 25, č. 2, s. 93-100. ISSN 1335-1532.en
dc.identifier.issn1335-1532
dc.identifier.uri2-s2.0-85070680349
dc.identifier.urihttp://hdl.handle.net/11025/34923
dc.format8 s.
dc.format.mimetypeapplication/pdf
dc.language.isoenen
dc.publisherTechnical University of Kosiceen
dc.rights© Technical University of Kosiceen
dc.titleEffects of Cooling Rate on the volume fraction of retained austenite in high-strenght MN-SI steelsen
dc.title.alternativeVliv rychlosti ochlazování na podíl zbytkového austenitu u zápustkových výkovků z vysokopevných ocelí legovaných MN a SIcs
dc.typečlánekcs
dc.typearticleen
dc.rights.accessopenAccessen
dc.type.versionpublishedVersionen
dc.description.abstract-translatedVarious ways are sought today to increase mechanical properties of steels while maintaining their good strength and ductility. Besides effective alloying strategies, one method involves preserving a certain amount of retained austenite in a martensitic matrix. The steel which was chosen as an experimental material for this investigation contained 2.5% manganese, 2.09% silicon and 1.34% chromium, with additions of nickel and molybdenum. An actual closed-die forged part was made of this steel. This forged part was fitted with thermocouples attached to its surface and placed in its interior and then treated using the Q&P process. Q&P process is characterized by rapid cooling from a soaking temperature to a quenching temperature, which is between the Ms and the Mf, and subsequent reheating to and holding at a partitioning temperature where retained austenite becomes stable. The quenchant was hot water. Cooling took place in a furnace. Heat treatment profiles were constructed from the thermocouple data and the process was then replicated in a thermomechanical simulator. The specimens obtained in this manner were examined using metallographic techniques. The effects of cooling rate on mechanical properties and the amount of retained austenite were assessed. The resultant ultimate strength was around 2100 MPa. Elongation and the amount of retained austenite were 15% and 17%, respectively. Microstructures and mechanical properties of the specimens were then compared to the real-world forged part in order to establish whether physical simulation could be employed for laboratory-based optimization of heat treatment of forgings.en
dc.subject.translatedclosed-die forgingsen
dc.subject.translatedQ&P processen
dc.subject.translatedretained austeniteen
dc.subject.translatedthermomechanical simulatoren
dc.identifier.doi10.12776/ams.v25i2.1266
dc.type.statusPeer-revieweden
dc.identifier.document-number473306000002
dc.identifier.obd43924981
dc.project.IDLO1502/RoRTI - Rozvoj Regionálního technologického institutucs
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