J. Jeleńkowski scite author profile

J. Jeleńkowski

4Publications

16Citation Statements Received

74Citation Statements Given

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Affiliations

Łukasiewicz Research Network - Institute of Mechanised Construction and Rock Mining, Institute of Precision Mechanics, Warsaw University of Technology

Publications

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Structure and mechanism of the deformation of Grade 2 titanium in plastometric studies

Bańczerowski

Jeleńkowski

Skalski

et al. 2019

Materials Science and Technology

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In this paper, the results of plastometric and material studies on grade 2 titanium are presented. Cylindrical titanium samples were compressed at elevated temperatures on a Gleeble thermo-mechanical simulator. The process was captured in the form of stress-strain diagrams. Then, for the chosen-deformed samples, structural studies were performed on a digital light microscope. On the basis of the results, it was possible to determine the plastometric processing conditions that are most suitable for the fragmentation of the grains of the tested titanium. In order to find optimal processing parameters, it was also important to describe the plastometric process through the appropriate constitutive equations. Material constants in this equation were determined on the basis of a hyperbolic sinusoidal equation. This paper is part of a thematic issue on Titanium.

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Duplex antiabrasive coatings (Fe-based alloy-tin) produced by impulse plasma deposition

Zdunek

Baszkiewicz²,

Boldok³

et al. 1998

Surface and Coatings Technology

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Modifying the structure of glow discharge nitrided layers produced on high-nickel chromium-less steel with the participation of an athermal martensitic transformation

Borowski

Jeleńkowski

Psoda

et al. 2010

Surface and Coatings Technology

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The titanium structure after a thermoplastic compression at elevated temperatures

Bańczerowski

Jeleńkowski

Płociński

et al. 2019

Materials Science and Technology

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In the biomedicine, titanium with the refined grain is of great demand. The microstructure of the Grade 2 titanium samples was produced by the plastic forming at elevated temperatures and with different strain rates. Sellers–Tegartt equation was applied to verify that plastic forming stresses required to achieve the desired structure. Microstructure was observed with scanning electron and transmission electron microscopes. To characterise the elements of the structure, the electron backscatter diffraction was used. Grains were fragmented mostly with a twinning mechanism. Observations of strain–stress graphs obtained during the deformation indicate that the equilibrium between flow stress and loaded strain was achieved after the processes of dynamic polygonisation and/or recrystallisation.

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J. Jeleńkowski

Structure and mechanism of the deformation of Grade 2 titanium in plastometric studies

Duplex antiabrasive coatings (Fe-based alloy-tin) produced by impulse plasma deposition

Modifying the structure of glow discharge nitrided layers produced on high-nickel chromium-less steel with the participation of an athermal martensitic transformation

The titanium structure after a thermoplastic compression at elevated temperatures

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