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Your search keyword '"Pajor, Krzysztof"' showing total 16 results
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16 results on '"Pajor, Krzysztof"'

1. Unlocking the Potential of CuAgZr Metallic Glasses: A Comprehensive Exploration with Combinatorial Synthesis, High-Throughput Characterization, and Machine Learning.

Author

Wieczerzak, Krzysztof, Pajor, Krzysztof, Jain, Manish, Müller, Arnold, Vockenhuber, Christof, Schwiedrzik, Jakob, Sharma, Amit, Klimashin, Fedor, Michler, Johann, and Groetsch, Alexander

Subjects
high-throughput characterization, machine learning, material library, mechanical properties, metallic glasses
Abstract

In this work, the CuAgZr metallic glasses (MGs) are investigated, a promising material for biomedical applications due to their high strength, corrosion resistance, and antibacterial activity. Using an integrated approach of combinatorial synthesis, high-throughput characterization, and machine learning (ML), the mechanical properties of CuAgZr MGs are efficiently explored. The investigation find that post-deposition oxidation in inter-columnar regions with looser packing causes high oxygen content in Cu-rich regions, significantly affecting the alloys mechanical behavior. The study also reveals that nanoscale structural features greatly impact plastic yielding and flow in the alloys. ML algorithms are tested, and the multi-layer perceptron algorithm produced satisfactory predictions for the alloys hardness of untested alloys, providing valuable clues for future research. The work demonstrates the potential of using combinatorial synthesis, high-throughput characterization, and ML  techniques to facilitate the development of new MGs with improved strength and economic feasibility.

Published
2023

9. Effect of cooling rate during solidification on structure and mechanical properties of Cu45Zr48Al7 glass-forming alloy.

Author

Kozieł, Tomasz, Cios, Grzegorz, Rutkowski, Bogdan, Wierzbicka-Miernik, Anna, Pajor, Krzysztof, and Bała, Piotr

Subjects
METALLIC glasses, HYPEREUTECTIC alloys, GLASS composites, COPPER-zirconium alloys, SOLIDIFICATION, ALLOYS, STRAIN hardening, FRACTURE strength
Abstract

The CuZr-based bulk metallic glass matrix composites have attracted great attention in recent years owing to their unique mechanical properties compared to bulk glassy samples. The vital effect of B2 CuZr phase on mechanical properties was previously confirmed in CuZr-based alloys with equiatomic concentrations of copper and zirconium. In this paper, the structures and mechanical properties of the Cu45Zr48Al7 alloy, which has hypereutectoid composition with respect to stoichiometric B2 CuZr phase, were studied. This alloy exhibits high glass-forming ability, but low tendency to form the B2 CuZr phase during solidification. However, we demonstrated that depending on the cooling rate during solidification, governed by sample diameter, either bulk metallic glass or bulk metallic glass matrix composite can be produced. In order to allow partial crystallization of the B2 phase during solidification with the volume fraction allowing to observe the strain hardening effect, the minimum cooling rate should be lower than 40 K/s. The composite consisting of a glassy outer layer and a crystalline core composed of the B2 phase exhibits fracture strength of the same level as the bulk glassy sample (above 1800 MPa) obvious work-hardening with a plastic deformation of about 6%. [ABSTRACT FROM AUTHOR]

Published
2023
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12. The Scavenging Effect of Different Rare-Earth Elements in the Low-Purity Zr50Cu40Al10 Alloy.

Author

Pajor, Krzysztof, Rutkowski, Bogdan, Gondek, Łukasz, Błyskun, Piotr, Reehuis, Manfred, Wieczerzak, Krzysztof, and Kozieł, Tomasz

Subjects
DIFFERENTIAL thermal analysis, ALLOYS, METALLIC glasses, RARE earth metals, NEUTRON diffraction, PHASE transitions, ELECTRON microscopy
Abstract

Glass-forming alloys are very sensitive to oxygen contaminations. Here, the oxygen-scavenging effect of five rare-earth elements (REEs) was studied when added to the Zr50Cu40Al10 alloy, synthesized from commercially available zirconium. The effects of precise REEs additions (Y, Sc, Lu, Gd, Nd) with respect to the measured oxygen content, based on the stoichiometric relationship in the M2O3 oxide, are reported. Additionally, the influence of double and triple REE-to-oxygen ratios on the critical diameter (Dc) and other glass-forming ability (GFA) indicators were investigated. To evaluate the GFA and phase transformations during heating, differential thermal analysis was performed along with neutron diffraction. The combination of these two techniques allowed to identify crystallization products and distinguish the differences in phase transformations of low and high-oxygen-content alloys. Microstructural analysis was carried out by means of electron microscopy (SEM, STEM), supported by X-ray diffraction. The best oxygen scavengers were found to be rare earths that form cubic sesquioxides, i.e., Y, Sc, and Lu, allowing to increase Dc in the high-oxygen Zr50Cu40Al10 alloy from 2.5 mm up to 8 mm (double-stoichiometric concentration of Y-to-oxygen). Our results indicate that low-purity alloys can be easily vitrified, highlighting their potential for wide commercialization. [ABSTRACT FROM AUTHOR]

Published
2022
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16. The Effect of Boron Content on Wetting Kinetics in Si-B Alloy/h-BN System.

Author

Polkowski, Wojciech, Sobczak, Natalia, Bruzda, Grzegorz, Nowak, Rafał, Giuranno, Donatella, Kudyba, Artur, Polkowska, Adelajda, Pajor, Krzysztof, Kozieł, Tomasz, and Kaban, Ivan

Subjects
BORON, HYPEREUTECTIC alloys, EUTECTIC alloys, ELECTRIC arc, HEAT storage, CONTACT angle
Abstract

In this work, the effect of boron content on the high-temperature wetting behavior in the Si-B alloy/h-BN systems was experimentally examined. For this reason, hypoeutectic, eutectic and hypereutectic Si-B alloys (Si-1B, Si-3.2B and Si-5.7B wt.%, respectively) were produced by electric arc melting method and then subjected to sessile drop/contact heating experiments with polycrystalline h-BN substrates, at temperatures up to 1750 °C. Similar to pure Si/h-BN system, wetting kinetics curves calculated on a basis of in situ recorded drop/substrate images point toward non-wetting behavior of all selected Si-B alloy/h-BN couples. The highest contact angle values of ~ 150° were obtained for hypoeutectic and eutectic Si-B alloys in the whole examined temperature range. [ABSTRACT FROM AUTHOR]

Published
2019
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