Your search keyword '"Salčinović Fetić, Amra"' showing total 6 results

1. Electronic structure–property relationship in an Al0.5TiZrPdCuNi high-entropy alloy.

Author

Babić, Emil, Figueroa, Ignacio A., Mikšić Trontl, Vesna, Pervan, Petar, Pletikosić, Ivo, Ristić, Ramir, Salčinović Fetić, Amra, Skoko, Željko, Starešinić, Damir, Valla, Tonica, and Zadro, Krešo

Subjects

X-ray photoelectron spectroscopy, TRANSITION metals, VALENCE bands, MAGNETIC entropy, FERMI level, MAGNETIC susceptibility, ENTROPY

Abstract

The valence band (VB) structure of an Al0.5TiZrPdCuNi high-entropy alloy (HEA) obtained using x-ray photoelectron spectroscopy has been compared to that recently calculated by Odbadrakh et al. [J. Appl. Phys. 126, 095104 (2019)]. Both the experimental and theoretical VBs show a split-band structure, typical for alloys consisting of the early (TE) and late (TL) transition metals. Accordingly, several electronic structure (ES) properties of this alloy, both in the glassy and crystalline state, are compared with those of similar TE-TL alloys. The comparison shows a strong effect of alloying with Al on the density of states at the Fermi level, N(EF), and on the magnetic susceptibility of Al0.5TiZrPdCuNi HEA, similar to that in conventional glassy alloys, such as Zr-Cu-Al ones. Despite some similarity in the theoretical and experimental density of states of the VBs, there are significant differences between them, which should be taken into account in any future studies of ES in HEAs and other compositionally complex alloys. [ABSTRACT FROM AUTHOR]

Published

2024

2. Transition from high-entropy to conventional (TiZrNbCu)1−xCox metallic glasses.

Author

Ristić, Ramir, Figueroa, Ignacio A., Salčinović Fetić, Amra, Zadro, Krešo, Mikšić Trontl, Vesna, Pervan, Petar, and Babić, Emil

Subjects

METALLIC glasses, PHOTOELECTRON spectroscopy, ULTRAVIOLET spectroscopy, FERMI level, MAGNETIC susceptibility, ATOMIC structure, AMORPHOUS alloys

Abstract

In this article, we describe the characterization of a newly fabricated amorphous alloy system (TiZrNbCu)1−xCox covering a broad composition range from high-entropy (HEA) to Co-rich alloys (x ≤ 0.43). We investigated thermal stability, atomic and electronic structure, and magnetic and mechanical properties as a function of chemical composition x. One of the important findings is that all studied properties change their dependence on concentration x within the HEA range. In particular, it has been found that the average atomic volume deviates from Vegard's law for x > 0.2, the concentration for which the average atomic packing fraction suddenly changes. The valence band structure, studied with ultraviolet photoemission spectroscopy, shows a split-band shape with 3d-states of Co approaching the Fermi level on increasing x. Due to the onset of magnetic correlations, magnetic susceptibility rapidly increases for x > 0.25. Very high microhardness increases rapidly with x. The results are compared with those for similar binary and quinary metallic glasses and with those for Cantor type of crystalline alloys. [ABSTRACT FROM AUTHOR]

Published

2021

3. Compositionally complex alloys: some problems and prospects

Author

Babić, Emil, Basletić, Mario, Figueroa, Ignacio, Laurent-Brocq, Mathilde, Michalik, Štefan, Pervan, Petar, Ristić, Ramir, Salčinović-Fetić, Amra, Starešinić, Damir, Zadro, Krešo, and Bilušić, Ante

Subjects

HEA, glassy alloys, Cantor alloys

Abstract

Despite a huge expansion of research on compositionally complex alloys, CCA (such as the entropy alloys, HEA and the corresponding glassy alloys) their comprehension is still limited, which is detrimental both for the design of CCAs and for their application. The broad compositional range in CCAs enables simple tuning of their properties by varying the contents of their constituent elements. Accordingly, the study of transition from CCA to conventional alloy, CA composed from the same constituents is important, both for understanding the formation of solid solutions in CCAs and for proper evaluation of their potential with respect to that of CAs. However, this transition has so far been studied systematically in only two types of alloys: isopleths of the Cantor alloy and glassy TiZrNbCuNi/Co alloys with variable Co, Ni or Cu content (Materials 14 (2021) 5824 and ref. therein). In both alloy systems the variation of a given property with composition depends sharply on the selected principal component and can be either monotonic (like that in the ideal solid solution) or non-monotonic. When the variation is non- monotonic, the maximum value of the selected property is usually outside of HEA composition range.

Published

2022

4. Are compositionally complex alloys intrinsically better than conventional ones?

Author

Babić, Emil, Drobac, Đuro, Figueroa, Ignacio, Laurent-Brocq, Mathilde, Marohnić, Željko, Michalik, Stefan, Mikšić-Trontl, Vesna, Perriere, Loic, Pervan, Petar, Ristić, Ramir, Salčinović-Fetić, Amra, Zadro, Krešo, and Prof. Dr. Maryam Tabrizian, Prof. Dr. Filippo Berto

Subjects

Compositionally complex alloys, High-entropy alloys, Electronic structure

Abstract

Despite a huge expansion of research on compositionally complex alloys, CCA (such as the approximately equimolar, multi-component high- entropy alloys, HEA and the corresponding high- entropy glassy alloys), their basic understanding is still limited, which is detrimental both for the design of CCAs and for their application. In particular, the prediction of compositions capable of forming random solid solutions (RSSs) and the prediction of their properties is still a problem. Nevertheless, some properties of a few CCAs exceed those of conventional alloys (CA) [1].

Published

2022

5. Transition from high-entropy to conventional (TiZrNbCu)1−xCox metallic glasses

Author

Ristić, Ramir, primary, Figueroa, Ignacio A., additional, Salčinović Fetić, Amra, additional, Zadro, Krešo, additional, Mikšić Trontl, Vesna, additional, Pervan, Petar, additional, and Babić, Emil, additional

Published

2021

6. Transition from High-Entropy to Conventional Alloys: Which Are Better?

Author

Babić, Emil, primary, Drobac, Đuro, additional, Figueroa, Ignacio Alejandro, additional, Laurent-Brocq, Mathilde, additional, Marohnić, Željko, additional, Mikšić Trontl, Vesna, additional, Pajić, Damir, additional, Perrière, Loїc, additional, Pervan, Petar, additional, Remenyi, Gyorgy, additional, Ristić, Ramir, additional, Salčinović Fetić, Amra, additional, Starešinić, Damir, additional, and Zadro, Krešo, additional

Published

2021