Svetlana Ginzburg's research while affiliated with Brandenburg University of Technology Cottbus - Senftenberg and other places

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Publications (2)

Fig. 2 • Schematic representation of a) a cross-section specimen, TIG-welded with a flux cored rod; b) a cross-section specimen, MAG-welded with solid wire (root layer) and with flux cored wire (remaining layers); c) a weld metal tensile specimen; d) location of the tensile test specimens and location of the impact test specimens from e) the weld metal and f) the fusion line.
Addition of nanoparticles to flux cored wires for the nucleation of acicular ferrite microstructure in weld metals of the high-strength low-alloy steel
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July 2020

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250 Reads

Welding and Cutting

Svetlana Ginzburg

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Sunullah Ozbek

For the reliability of many welded structures like pipelines or offshore wind parks, it is necessary to ensure high mechanical properties such as strength and toughness of the entire material. In order to improve quality of weld joints, flux cored rods and wires containing different nanoparticles (ZrO2, LaB6 and Al2O3) were manufactured and welded with the TIG and MAG welding processes. Influence of these nanoparticles on the microstructure and mechanical properties of the weld joints were investigated. The acicular ferrite and improved strength of the weld metals were observed by the addition of 0.2 wt.% of iron powder with ZrO2 nanoparticles to the filling of flux cored wires.

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Study of Crystallization Kinetics of Amorphous Zirconia in Fe2O3 Matrix by Kissinger Method

September 2019

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30 Reads

Key Engineering Materials

Key Engineering Materials

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Svetlana Ginzburg

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The composite materials Fe 2 O 3 -ZrO 2 with different content of zirconium oxide have been obtained by thermochemical synthesis. The process of crystallization of zirconium dioxide and the effect of the amount of zirconium dioxide on the phase transformation have been studied by DTA and microscopy. The activation energy of the crystallization process was calculated by the Kissinger method to be in average 170 KJ/mol. It is shown that an increase of the ZrO 2 content leads to an increase of temperature of crystallization.

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