Your search keyword '"Morończyk, Bartosz"' showing total 2 results

1. Microstructure and Corrosion of Mg-Based Composites Produced from Custom-Made Powders of AZ31 and Ti6Al4V via Pulse Plasma Sintering.

Author

Dobkowska, Anna, Kruszewski, Mirosław Jakub, Ciftci, Jakub, Morończyk, Bartosz, Zgłobicka, Izabela, Zybała, Rafał, and Żrodowski, Łukasz

Subjects

MICROSTRUCTURE, METALLIC composites, MAGNESIUM alloys, SINTERING, POWDERS, CORROSION resistance

Abstract

Magnesium (Mg) and its alloys offer promise for aerospace, railway, and 3D technology applications, yet their inherent limitations, including inadequate strength, pose challenges. Magnesium matrix composites, particularly with metallic reinforcements like titanium (Ti) and its alloys, present a viable solution. Therefore, this study investigates the impact of Ti6Al4V reinforcement on AZ31 magnesium alloy composites produced using pulse plasma sintering (PPS). Results show enhanced microhardness of the materials due to improved densification and microstructural refinement. However, Ti6Al4V addition decreased corrosion resistance, leading to strong microgalvanic corrosion and substrate dissolution. Understanding these effects is crucial for designing Mg-based materials for industries like petrochemicals, where degradation-resistant materials are vital for high-pressure environments. This research provides valuable insights into developing Mg-Ti6Al4V composites with tailored properties for diverse industrial applications, highlighting the importance of considering corrosion behavior in material design. Further investigation is warranted to establish predictive correlations between Ti6Al4V content and corrosion rate for optimizing composite performance. [ABSTRACT FROM AUTHOR]

Published

2024

2. A comparison of the microstructure-dependent corrosion of dual-structured Mg-Li alloys fabricated by powder consolidation methods: Laser powder bed fusion vs pulse plasma sintering.

Author

Dobkowska, Anna, Żrodowski, Łukasz, Chlewicka, Monika, Koralnik, Milena, Adamczyk-Cieślak, Bogusława, Ciftci, Jakub, Morończyk, Bartosz, Kruszewski, Mirosław, Jaroszewicz, Jakub, Kuc, Dariusz, Święszkowski, Wojciech, and Mizera, Jarosław

Subjects

POWDER metallurgy, SINTERING, POWDERS, ALUMINUM-lithium alloys, CORROSION resistance, LASERS, ALLOY powders

Abstract

In this study, powder metallurgy methods were used to fabricate Mg-7.5Li-3Al-Zn alloys from repowdered extruded alloys. Extruded alloys were powdered using ultrasonic atomization, and then laser powder bed fusion (LPBF) and pulse plasma sintering (PPS) were used to consolidate the bulk materials. A comparison of the properties of the fabricated alloys with those of a conventionally extruded one was carried out using methods that characterized the microstructure and corrosion resistance. When compared to their conventionally extruded counterpart, LPBF and PPS materials exhibited refined microstructures with low enrichment in AlLi and coarse Al, Zn, Mn precipitates. The main drawback of the LPBF alloy, printed for the needs of this study, was its porosity, which had a negative effect on its corrosion. The presence of unrecrystallized particle boundaries in the PPS alloy was also unbeneficial with regard to corrosion. The advantage of the LPBF and PPS processes was the ability to change the proportion of α(Mg) to β(Li), which when the complete consolidation of the material is achievable, may increase the corrosion resistance of dual-structured Mg-Li alloys. The results show that powder metallurgy routes have a wide potential to be used for the manufacture of Mg-Li based alloys. [ABSTRACT FROM AUTHOR]

Published

2022