Your search keyword '"Palupčíková, Renáta"' showing total 2 results

1. The Effect of Vanadium on Modified Z-Phase Characteristics in Austenitic Steels.

Author

Vodárek, Vlastimil, Holešinský, Jan, Kuboň, Zdeněk, Palupčíková, Renáta, Hradečný, Kryštof, Váňová, Petra, and Hlinka, Josef

Subjects

PRECIPITATION (Chemistry) kinetics, NIOBIUM, UNIT cell, VANADIUM, AUSTENITIC steel, AUSTENITE

Abstract

In austenitic steels, the tetragonal Z-phase (NbCrN) has frequently been credited with beneficial strengthening effects during dislocation creep. In the modified Z-phase, niobium is partially substituted by vanadium. The basic objective of this contribution is a detailed characterization of the modified Z-phase in vanadium bearing austenitic AISI 316LN+Nb+V and HR3C steels. Experimental activities were focused on crystallography, thermodynamic and dimensional stability, kinetics of precipitation (TTP diagram) and solvus temperature of the modified Z-phase in the steels examined. Thermodynamic modelling was used for prediction of stable minor phases and solvus temperature of the modified Z-phase. Kinetics of precipitation of the (Nb,V)CrN phase in the AISI 316LN+Nb+V steel was experimentally investigated in the temperature interval of 550–1250 °C. The kinetics of precipitation of the modified Z-phase in austenitic matrix was fast. Results of diffraction studies on particles of the modified Z-phase confirmed the existence of the tetragonal unit cell already after short-term annealing. The solvus temperature of the modified Z-phase in austenitic steels was determined to be lower than that for the NbCrN phase. The decrease in the solvus temperature is dependent on the vanadium content in austenitic steels. Both thermodynamic calculations and experimental results proved that the thermodynamical stability of the modified Z-phase in austenite was high. More data are needed for evaluation of long-term dimensional stability of the (Nb,V)CrN phase in austenitic steels at temperatures for their engineering applications. [ABSTRACT FROM AUTHOR]

Published

2023

2. Microstructure Evolution in a GOES Thin Strip.

Author

Volodarskaja, Anastasia, Hradečný, Kryštof, Palupčíková, Renáta, Váňová, Petra, and Vodárek, Vlastimil

Subjects

CRYSTAL grain boundaries, ELECTRICAL steel, MICROSTRUCTURE, PARTICULATE matter, AUSTENITE, CHROMIUM isotopes, COPPER isotopes

Abstract

This paper focuses on the evolution of the microstructure in a grain-oriented electrical steel (GOES) thin strip after casting. After solidification, the microstructure consisted of delta-ferrite. A small fraction of austenite was formed during the cooling of the thin strip in the two-phase region (gamma+delta). Fine Cr2CuS4 particles precipitated in the ferrite and along the delta/gamma interfaces. Laths of primary Widmanstätten austenite (WA) nucleated directly on the high-angle delta-ferrite grain boundaries. The formation of WA laths in both adjacent ferritic grains resulted in a zig-zag shape of delta-ferrite grain boundaries due to their local rotation during austenite nucleation. Based on the EBSD results, a mechanism of the formation of the zig-zag grain boundaries has been proposed. Besides the Widmanstätten morphology, austenite also formed as films along the delta-ferrite grain boundaries. Sulfide precipitation along the delta/gamma interfaces made it possible to prove that austenite decomposition upon a drop in temperature was initiated by the formation of epitaxial ferrite. Further cooling brought the decay of austenite to either pearlite or a mixture of plate martensite and some retained austenite. [ABSTRACT FROM AUTHOR]

Published

2023